Crystalline form of activated trap and use thereof for structure-based drug design

ABSTRACT

The invention relates to crystalline form of active TRAP (tartrate-resistant and purple acid phosphatases), preferably human or rat TRAP. The atomic structural coordinates are given as well as the conserved surface which is created by special atoms, relevant for the design of modulators or inhibitors of the human TRAP. This crystalline form of active TRAP can be used for structure-based drug design for specific modulator, activator or inhibitor of TRAP activity, useful in the treatment of diseases or degenerative conditions resulting in increased bone resorption, such as tissue damages, bone metabolic disorders, osteoporosis.

[0001] The invention relates to crystalline form of TRAP(tartrate-resistant and purple acid phosphatases), which is activated bycleavage. The TRAP is preferably human or rat TRAP. The atomicstructural coordinates are given as well as the conserved surface whichis created by special atoms, relevant for the design of modulators orinhibitors of the human TRAP. This crystalline form of activated TRAPcan be used for structure-based drug design for specific modulator,activator or inhibitor of TRAP activity, useful in the treatment ofdiseases or degenerative conditions resulting in increased boneresorption, such as tissue damages, bone metabolic disorders,osteoporosis.

BACKGROUND

[0002] Tartrate resistant purple acid phosphatase (TRAP or PAP) is amammalian di-iron containing enzyme highly expressed in a limited numberof tissues. In humans and rodents it is primarily present in cellsresponsible for bone resorption, osteoclasts, and in macrophages ofspleen, liver and lung.

[0003] Normal bone function requires a turnover of bone. Bone isconstantly being rebuilt by cycles of resorption and formation whichmeans that formation is closely linked to resorption (a phenomenonreferred to as coupling).

[0004] TRAP is an enzyme expressed predominantly in bone resorbing cells(osteoclasts). Investigations in TRAP knockout mice show that theresorption process is disrupted so that, with increasing age, TRAPknockout mice become osteopetrotic, i.e. have an increased bone mineralcontent and more dense bone is formed. Osteoclasts prepared from theseanimals are functional and do resorb bone but to a lesser extent thanwild type mouse osteoclasts.

[0005] Phosphatases are enzymes that remove organic phosphates fromproteins. The mammalian Purple Acid Phosphatases (PAPs), a group ofenzymes to which Tartrate Resistant and purple Acid Phosphatase (TRAP)belongs, are characterized by a binuclear iron center at the activesite.

[0006] The binuclear iron center, low pH optimum (≈5), high isoelectricpoint (≈9) and insensitivity to inhibition by L(+) tartrate are featuresof TRAP that may be involved in the apparent substrate specificity atthe low pH in the osteoclastic resorption area. The TRAP enzyme is acationic glycoprotein with a molecular mass of 35 kD. The rat TRAP is aprotein with a monomeric 306 amino acid peptide structure. See FIG. 1.The peptide sequence of rat bone TRAP displays 89-94% homology to TRAPenzyme of the human placenta, bovine spleen, and uteroferrin.

[0007] TRAP hydrolyzes aryl phosphates, nucleoside di- andtriphosphates, pyrophosphate and phosphoproteins. Its physiological roleremains unclear but TRAP may mediate dephosphorylation of bone matrixproteins such as osteopontin and bone sialoprotein.

[0008] Dephosphorylation of bone matrix proteins enables osteoclasts tomigrate over the bone surface and TRAP is therefore likely to beinvolved in the attachment of osteoclasts to the bone surface.

[0009] In humans and rats, PAP enzymes are highly expressed in certaincells of the monocyte-macrophage lineage, such as the bone-resorbingosteoclasts and certain activated macrophages in spleen, liver and lung[1-4], and TRAP has since long been used as a histochemical marker forthese cells. Given the broad substrate specificity of PAP enzymes, it isconceivable that other factors, such as local availability and propercompartmentalisation of PAPs with their potential substrates, are otherimportant factors in determining the physiological action of PAPs inbiological systems.

[0010] The cDNA sequences of TRAP/PAP enzymes from different species andorgans all indicate that these enzymes are translated as a singlepolypeptide of around 35 kDa [5-8]. This contrasts with thepredominantly two subunit structure, consisting of a 20-23 kDaN-terminal domain linked through a disulphide bond to a 15-17 kDaC-terminal domain, observed in purified enzyme preparations from avariety of sources including human and rat bone [9-10], giant celltumors [11] and normal and pathological spleen [12-14]. In contrast,uteroferrin purified from endometrial secretions are mostly in thesingle subunit form [12, 15] as are the recombinant PAPs generated byoverexpression using the Baculovirus system [16, 17, 18]. Orlando et al[13] managed to separate the monomeric and two-subunit variants of PAPfrom bovine spleen, and demonstrated a markedly higher specific enzymeactivity associated with the two subunit form. Moreover, digestion ofthe single subunit form with the serine proteases trypsin orchymotrypsin generated the 23 kDa and 15 kDa disulfide-linked fragmentscharacteristic of the two subunit form together with a significantenhancement of enzyme activity. Similar nicking and activation of thenon-cleaved purified recombinant human and mouse PAPs were noted uponprolonged storage [17].

[0011] Purple acid phosphatases (PAPs) are acid metallohydrolases thatcontain a binuclear Fe3+M2+center in their active site, where M=Fe or Zn[19-22]. In mammals, these enzymes are also referred to astartrate-resistant acid phosphatases (TRAPs) (EC 3.1.3.2) or type 5 acidphosphatases[23]. TRAPs are iron-containing, monomeric glycoproteinswith molecular weights of around 35,000 Da [24]. The deduced amino acidsequences of human, rat and mouse TRAPs shows a high degree of identityto the mammalian members of the PAP family, e.g uteroferrin (Uf) andbovine spleen PAP[5-7]. Recently, EPR spectroscopic analysis of ratrecombinant TRAPs[16] have provided compelling evidence that this enzymebelong to the purple acid phosphatase family.

[0012] Mammalian PAPs contain a FeFe centre, while a plant PAP from redkidney beans (KBPAP) instead has a FeZn center [25]. Theanti-ferromagnetically spin-coupled binuclear iron centre of themammalian PAPs exists in two stable interconvertible states: pink,reduced, EPR-visible and enzymatically active, with a mixed-valentFe2+-Fe3+ cluster; and purple, oxidized, EPR-silent and catalyticallyinactive, with the binuclear pair as Fe3+-Fe3+ [21, 26-27]. In contrast,the plant enzyme with a mixed-valent Zn2+-Fe3+ centre is constitutivelyactive [28 ]. The M(2+) site in the PAPs can harbour either Zn2+ or Fe2+without alteration of enzyme activity or spectral properties [28-30].KBPAP is the only PAP whose X-ray structure has been determined. [17]The active site of KBPAP consists of an iron and a zinc ion bridged byan aspartate and probably a hydroxide. The Fe3+ site is coordinated bytyrosine, histidine and aspartate, while the Zn2+ site is coordinated bytwo histidines and an asparagine [17, 31]. One solvent molecule isprobably bound to each metal ion. Kidney bean PAP is a homodimericprotein with a molecular weight of around 110,000 Da, and exhibits a lowoverall sequence homology to the mammalian PAPs [32]. However, analignment of the sequences of Uf and KBPAP displays an identicalpositioning of the amino acid residues ligating the di-metal centre [31,32]. Moreover, the mammalian protein phosphatases calcineurin (type 2B)[1-2] and protein phosphatase type 1 (PP-1) [3-4] both contain adi-nuclear metal centre and also reveal a striking similarity to theplant PAP enzyme in the coordination environments of the active site,except for the absence of the tyrosine ligand. These two latter enzymesare serine/threonine protein phosphatases, suggesting that also PAPsfunction as protein phosphatases. A sequence motif,DXH(X)nGDXXD(X)nGNHD/E, incorporating most of the metal-coordinatingamino acids found in the PAP and PP structures so far identified hasrecently been identified also in a large group of phosphoesterases,including other phosphomonoesterases, nucleotide phosphatases andnucleases, from plants, bacteria and animal cells [8-11]. Thisphosphoesterase signature motif is represented at the secondarystructure level as a β-α-β-α-β-fold that serves to position the twometal ions at the active site with four of the metal ligands provided byloop residues between each β-sheet and α-helix. The importance of thismotif has been confirmed by site-directed mutagenesis studies [12-13].Furthermore, the PAP members are related to a superfamily ofμ-(hydr)oxo-bridged binuclear iron proteins, including hemerythrin,R2-subunit of ribonucleotide reductase, methane monooxygenasehydroxylase and others [15]. All members of this superfamily ofiron-oxygen proteins contain a binuclear iron center but have differentfunctions.

[0013] No crystallisation of TRAP, nor of actived TRAP has earlier beenperformed. The crystal form of the new active form of TRAP is of greatuse in the screening for specific modulators, activators or inhibitor ofTRAP activity. Such specific modulators, activators or inhibitor areuseful in the treatment of diseases or degenerative conditions resultingin increased bone resorption, such as tissue damages, bone metabolicdisorders, osteoporosis.

FIGURES

[0014]FIG. 1. The amino acid sequence of rat TRAP, Sequence listing No1.

[0015]FIG. 2. A view of TRAP.

[0016]FIG. 3. Secondary structure diagram of the catalytic domains ofTRAP

[0017]FIG. 4. A tracing of α-carbons in TRAP.

[0018]FIG. 5. A view of the active site of TRAP.

[0019]FIG. 6. SDS-PAGE gel showing the contents of the crystalcontaining drops.

THE INVENTION

[0020] The present invention relates to crystalline form of TRAP(tartrate-resistant and purple acid phosphatases), which is activated bycleavage, preferably human or rat TRAP (Sequence listing No 1). Theatomic structural coordinates are given in Table 2. The conservedsurface which is created by special atoms is important and crucial forthe design of modulators or inhibitors of the human TRAP.

[0021] This crystalline form of activated TRAP can be used forstructure-based drug design for specific modulator, activator orinhibitor of TRAP activity, useful in the treatment of diseases ordegenerative conditions resulting in increased bone resorption, such astissue damages, bone metabolic disorders, osteoporosis.

[0022] This claimed crystal form of TRAP is a cleaved form. The cleavageof TRAP increases activity and gives the TRAP, which here is calledactivated TRAP. Reference is given to SE9803959-7

[0023] The invention is defined in the attached claims.

EXAMPLE

[0024] Methods

[0025] Protein production and purification

[0026] Purification of baculovirus produced recombinant TRAP wasperformed as described [16].

[0027] Crystallisation

[0028] The protein was crystallized by vapor diffusion with the hangingdrop method. The crystals used in the structure determination were grownwith a reservoir containing 16%PEG 8000, 0.1 M HEPES(buffer+precipitant+salt) pH 7.0 and 0.1 M KH₂PO₄. The drop consisted of2 μl protein solution and 2 μl from the reservoir. The proteinconcentration was 5-8 mg/ml. Purple crystals appeared within two weeksat 18 C and reached a maximum size of 0.1×0.1×0.05 mm.

[0029] Using different conditions, different crystal forms were obtainedbut not all of these crystals were suitable for X-ray studies. Common toall successful crystallisation attempts was the presence of inorganicphosphate.

[0030] Data Collection

[0031] Most X-ray data was collected on an inhouse Raxis-4 imageplatedetector mounted on a Rigaku RU300 rotating anode. A two-wavelength MADdataset was also collected on beamline BL 14 at ESRF, Grenoble. All datacollection was performed under cryoconditions. Prior to freezing, thecrystal was transferred for a few seconds to a cryosolution containingtwo parts reservoir solution and one part glycerol. The space group wasI4, with cell dimensions a=b=116.4 Å and c=63.3 Å. The best crystaldiffracted to 2.7 Å resolution.

[0032] Three distinct heavy atom derivative crystals were produced,using Hg(CN)₂/HgCl₂, K₂PtCl₄ and Na₂WO₄. Heavy atom derivatives wereprepared by adding small volumes (approximately 0.1 μl) of saturatedheavy atom solutions to the crystal containing drop two hours prior tofreezing. The mercury solution contained equal amounts of Hg(CN)₂ andHgCl₂.

[0033] The diffraction images were processed with DENZO and Scalepack[33], conserving the anomalous differences for all datasets, includingthe native. Native and derivative datasets were put to a common scalewith the program Scaleit.

[0034] Structure Determination and Refinement

[0035] The strongest heavy atom site for the mercury derivative wasfound by difference Patterson map analysis. The other sites were locatedusing difference Fourier syntheses. Mlphare [34] was used for heavy atomparameter refinement and phasing at this stage. Anomalous differenceFouriers were calculated to confirm heavy atom sites and identify thecorrect enantiomer. The phases were improved by solvent flattening in dm[35] and the corresponding electron density map to 3.5 Å resolution wasused for most of the structure interpretation. Later on the programsSharp [36] and Solomon [37]were used to produce an electron density mapof superior quality to 2.7 Å. A partial model of kidney bean acidphosphatase was positioned into the density to facilitate modelbuilding. The two highest peaks in the anomalous difference Fourier ofthe native data corresponded well with the positions of the two metalbinding sites in the positioned model of the kidney bean enzyme. A modelof hTRAP was built with O [38] with intermittent rounds of refinement inCNS [39]. The progress of model improvement was monitored with Procheck[40]. The model consists of all residues for human TRAP, except amissing loop-region (residues 146-160) and the last four residues. TheR-factor is 23% and the free R is 31% for reflections in the interval50-2.7 Å. 82% of the residues fall in the most favorable regions of theRamachandran plot as defined by Procheck. Data collection and refinementstatistics are summarized in Table 1. The crystal structure giving theatomic structural coordinates is given in Table 2. TABLE 1Crystallographic data Data collection resolution λ Completeness (%) Nrof Phasing Data Set (Å) (Å) (redundancy) Rsym^(a) Riso^(b) sitesPower^(c) native 2.7 1.542 89 (3.9) 0.107 — — — K₂PtCl₄ 3.0 1.542 69(2.2) 0.065 0.433 6 1.4 Na₂WO₄ 6.0 1.542 93 (2.2) 0.101 0.288 3 1.5mercury-1 3.0 1.542 88 (3.7) 0.076 0.363 4 2.1 mercury-2 4.0 1.008 72(2.6) 0.059 0.290 4 3.2 mercury-3 4.0 0.918 68 (2.7) 0.080 0.279 4 2.8

[0036] The Structure

[0037] The structure of TRAP can be described as a double beta sheetsandwhich surrounded on both sides by alpha helices and has the overallfold observed for the C-terminal domain of KBPAP. See FIG. 2 which showsa view of TRAP.

[0038] The active site with the two iron ions and the phosphate areshown at the top. The beginning and end of the repression loop (RL) arealso marked.

[0039] The beta sheets have seven strands each and are mostly paralleland the di-iron active site is found at the C-terminal side of thesheets . See FIG. 3 which shows a secondary structure diagrams of thecatalytic domains of TRAP.

[0040] After cleavage of the 21 amino acid N-terminal signal peptide,the sequential structure begins with five residues leading up to thefirst strand (β1) in the middle of sheet 1. This strand constitutes thefirst element in the conserved β-α-β-α-β motif. Asp 14 on β1 coordinatethe Fe3+ ion and Asp 52 on β2 coordinate both the Fe2+ and Fe3+ ions. Atyrosine side chain, Tyr 55, also coordinates the Fe3+ ion and isresponsible for the characteristic colour of this enzyme, due to acharge relay mechanism between the Fe3+ ion and the tyrosine side chainoxygen atom¹⁸. The delta oxygen of Asn 91 on β3 coordinates the Fe2+ion. The sequence then adopts a helix-turn-helix structure followed by afinal strand on this side of the sheet, before crossing over to sheet 2.The strand β4 does not have a corresponding element in KBPAP. Sheet 2begins with two strands, β5 and β6, connected by a short turn. β6 isfollowed immediately by a short helix, α5. The region between Ser 145and Val 161 is not visible in the electron density map. The densityresumes at Val 161 and leads to α6 and β7. At the C-terminal edge of β7His 186 is coordinating the Fe2+ ion. The following loop contains tworesidues, Glu 194 and His 195, that is located close to the active site.The corresponding pair in KBPAP contains two histidine residues. Thestructure continues with two helices, α7 and α8, interrupted by aproline residue and followed by β8. A short loop between β9 and β10contains the last metal interaction site, where N∈ of His 221 and Nδ ofHis 223 coordinates the Fe2+ and Fe3+ ions respectively. Sheet 2continues with three antiparallel strands, β9-β11, before crossing overback to sheet 1. Three sequential and antiparallel strands constitutesthe C-terminal part of the structure. The last four residues, Arg303-Pro 306 cannot be observed.

[0041] There is one disulfide bridge visible in the structure, betweenCys 142 on α5 and Cys 200 on α7. The two cysteines are located ondifferent sides of the cleavage site and agrees with SDS-polyacrylamidegel electrophoresis studies with and without reducing agent, whichsuggested that the two substructures were connected by a disulfide[16].

[0042] There are two N-glycosylation motifs in the TRAP sequence. At theextension of the Asn 97 side chain extra density can be seen for onecarbohydrate moiety, which has been included in the model. For Asn 128no such density can be seen. The exposed nature and high B-factors ofthat side chain suggests that high mobility may be the cause for notobserving glycosylation at this site. See FIG. 4 showing a view ofα-carbons in TRAP. The active site and an N-glycosylation site at Asn 97are displayed.

[0043] The Active Site

[0044] The side chains coordinating the iron ions in TRAP all have theirequivalent in KBPAP as has been predicted[32]. See FIG. 5, a view of theactive site of TRAP.

[0045] When all atoms in these residues, two aspartic acids, oneasparagine, three histidines and a tyrosine, are aligned, the r.m.sdistance is 0.7 Å. To achieve such similiarty in structure for theactive site, the two proteins also share a conserved overall structure.A large density is visible near the two metals that agrees with the sizeof a phosphate ion. The resolution of the data does not inform us of theorientation of this molecule. Likewise, no solvent molecules in theactive site can be modelled accurately based on the present data.

[0046] The protein surface in and around the active site can be used forstructure based drug design. This surface is created by atoms from thetwo metal ions and from the following amino acid residues: Aspl4, Asp52,Tyr55, Phe56, Asn9l His92, His186, Tyr187, Glu194, His195, His221,His223, Phe244, Asp246. These amino acids are conserved between the ratenzyme, for which we have determined the structure, and the humanenzyme. Their structure in the active site is therefore relevant for thedesign of modulators or inhibitors of the human TRAP.

[0047] The missing density for residues between Ser145 and Val161 raisesthe question of proteolytic activation. SDS-polyacrylamide gelelectrophoresis indicated that crystallized TRAP had been cleaved intotwo fragments. FIG. 6 shows a SDS-PAGE gel showing the contents of thecrystal containing drops. The first three lanes after marker were rununder reducing conditions and the last three in non-reducing conditions.The gel shows that the protein has been cleaved between the residuesforming the disulfide and where the sizes of the cleavage productscorresponds to a cleavage of the protein in the repressions loop.

[0048] These fragments corresponded well in size to a cleavage of theprotein in this region. We have in patent application SE9803959-7 shownthat rat TRAP can be cleaved in this part of the sequence with aresulting increase in activity [41]. We cannot at this stage determinewhether there is question of a single nicking of the enzyme or if a partof the sequence has been excised. A single cleavage site would give riseto two loose ends that could be too mobile to be detected in theelectron density maps. We have labeled the region between α15 and α6 therepression loop, since its cleavage or removal increases the activity ofthe enzyme up to ten fold. Ser145 is in close proximity to the activesite and it is plausible that the uncleaved loop partly covers it andthereby interferes with activity. Interestingly, this loop domain ismissing in KBPAP.

[0049] Catalytic mechanism

[0050] The similarity of TRAP with the catalytic domain of KBPAPsuggests a similar reaction mechanism for the two enzymes. Klabunde andcoworkers have suggested a mechanism for hydrolysis of phosphatesubstrates by KBPAP, based on the crystal structures of this enzyme inunliganded form as well as in complex with the reaction productphosphate and with the inhibitor tungstate [31]. They conclude that thephosphate substrate interacts with the Zn2+ ion followed by anucleophilic attack on the phosphorous by an hydroxide ion coordinatedby the Fe3+ ion. The negatively charged transition state is believed tobe stabilized by the Zn2+ ion and by the imidazoles of three histidineresidues His202, His295 and His296, where the latter is also suggestedas a potential proton donor to the leaving alcohol group. Thesehistidinies in KBPAP have their structural counterparts in His92, Glu194and His195 in TRAP. The side chain of Glu194 points down into theprotein and is not in close contact with the phosphate group andprobably has less of an effect on catalysis than His295 has in KBPAP.His92 and His 195 on the other hand superposes closely on their KBPAPcounterparts. The large difference between KBPAP and TRAP in the activesite is the nature of the M2+ion, where KBPAP has a zink ion and TRAP aniron ion. Since the charge can alter between +2 and +3 for iron ions,TRAP is more sensitive than KBPAP to redox agents [21, 25, 28]. TABLE 2Column contents: 1: Atom number 2: Atom type 3: Residue type 4: Residuenumber 5: atomic coordinate, X (unit Ångstrom) 6: atomic coordinate, Y7: atomic coordinate, Z 8: atomic occupancy 9: B-factor 1 2 3 4 5 6 7 89 1 CB THR 1 120.606 13.630 3.450 1.00 30.00 2 OG1 THR 1 121.896 13.9582.918 1.00 30.00 3 CG2 THR 1 120.323 14.545 4.633 1.00 30.00 4 C THR 1119.186 11.774 4.394 1.00 30.00 5 O THR 1 118.175 12.219 3.846 1.0030.00 6 N THR 1 120.984 11.253 2.757 1.00 30.00 7 CA THR 1 120.58412.139 3.885 1.00 30.00 8 N ALA 2 119.141 10.950 5.440 1.00 30.00 9 CAALA 2 117.891 10.508 6.061 1.00 30.00 10 CB ALA 2 117.501 9.121 5.5411.00 30.00 11 C ALA 2 118.087 10.467 7.582 1.00 30.00 12 O ALA 2 119.0719.915 8.072 1.00 30.00 13 N PRO 3 117.150 11.057 8.344 1.00 30.00 14 CDPRO 3 116.001 11.837 7.847 1.00 30.00 15 CA PRO 3 117.205 11.102 9.8121.00 30.00 16 CB PRO 3 115.933 11.872 10.179 1.00 30.00 17 CG PRO 3115.726 12.768 9.002 1.00 30.00 18 C PRO 3 117.260 9.738 10.516 1.0030.00 19 O PRO 3 116.666 9.570 11.584 1.00 30.00 20 N ALA 4 117.9708.775 9.931 1.00 30.00 21 CA ALA 4 118.078 7.433 10.512 1.00 30.00 22 CBALA 4 118.305 6.409 9.401 1.00 30.00 23 C ALA 4 119.196 7.335 11.5531.00 30.00 24 O ALA 4 120.362 7.557 11.237 1.00 30.00 25 N SER 5 118.8436.984 12.787 1.00 30.00 26 CA SER 5 119.834 6.880 13.859 1.00 30.00 27CB SER 5 119.142 6.930 15.220 1.00 30.00 28 OG SER 5 120.081 6.76016.269 1.00 30.00 29 C SER 5 120.715 5.630 13.791 1.00 30.00 30 O SER 5120.932 4.953 14.797 1.00 30.00 31 N THR 6 121.242 5.343 12.609 1.0030.00 32 CA THR 6 122.087 4.174 12.427 1.00 30.00 33 CB THR 6 121.3913.142 11.537 1.00 30.00 34 OG1 THR 6 120.893 3.793 10.362 1.00 30.00 35CG2 THR 6 120.255 2.480 12.279 1.00 30.00 36 C THR 6 123.436 4.48611.790 1.00 30.00 37 O THR 6 123.582 5.485 11.082 1.00 30.00 38 N LEU 7124.418 3.624 12.053 1.00 30.00 39 CA LEU 7 125.746 3.769 11.467 1.0030.00 40 CB LEU 7 126.779 2.926 12.225 1.00 30.00 41 CG LEU 7 128.2072.995 11.671 1.00 30.00 42 CD1 LEU 7 128.810 4.361 11.954 1.00 30.00 43CD2 LEU 7 129.050 1.930 12.308 1.00 30.00 44 C LEU 7 125.578 3.21810.060 1.00 30.00 45 O LEU 7 125.203 2.061 9.888 1.00 30.00 46 N ARG 8125.830 4.040 9.052 1.00 30.00 47 CA ARG 8 125.664 3.587 7.680 1.0030.00 48 CB ARG 8 124.577 4.408 6.983 1.00 30.00 49 CG ARG 8 123.1744.239 7.551 1.00 30.00 50 CD ARG 8 122.378 5.529 7.390 1.00 30.00 51 NEARG 8 122.937 6.621 8.193 1.00 30.00 52 CZ ARG 8 123.262 7.820 7.7191.00 30.00 53 NH1 ARG 8 123.090 8.105 6.433 1.00 30.00 54 NH2 ARG 8123.781 8.735 8.528 1.00 30.00 55 C ARG 8 126.965 3.716 6.913 1.00 30.0056 O ARG 8 127.823 4.529 7.264 1.00 30.00 57 N PHE 9 127.122 2.905 5.8721.00 30.00 58 CA PHE 9 128.326 2.965 5.050 1.00 30.00 59 CB PHE 9129.596 2.632 5.872 1.00 30.00 60 CG PHE 9 129.721 1.179 6.278 1.0030.00 61 CD1 PHE 9 130.156 0.214 5.368 1.00 30.00 62 CD2 PHE 9 129.4200.780 7.585 1.00 30.00 63 CE1 PHE 9 130.287 −1.128 5.753 1.00 30.00 64CE2 PHE 9 129.547 −0.553 7.982 1.00 30.00 65 CZ PHE 9 129.981 −1.5097.070 1.00 30.00 66 C PHE 9 128.215 2.016 3.890 1.00 30.00 67 O PHE 9127.553 0.983 3.996 1.00 30.00 68 N VAL 10 128.844 2.387 2.775 1.0030.00 69 CA VAL 10 128.874 1.534 1.594 1.00 30.00 70 CB VAL 10 128.8292.346 0.291 1.00 30.00 71 CG1 VAL 10 129.384 1.518 −0.854 1.00 30.00 72CG2 VAL 10 127.393 2.752 −0.015 1.00 30.00 73 C VAL 10 130.192 0.7771.663 1.00 30.00 74 O VAL 10 131.169 1.274 2.224 1.00 30.00 75 N ALA 11130.201 −0.432 1.116 1.00 30.00 76 CA ALA 11 131.395 −1.269 1.096 1.0030.00 77 CB ALA 11 131.246 −2.414 2.093 1.00 30.00 78 C ALA 11 131.612−1.811 −0.323 1.00 30.00 79 O ALA 11 130.892 −2.706 −0.777 1.00 30.00 80N VAL 12 132.578 −1.227 −1.029 1.00 30.00 81 CA VAL 12 132.919 −1.638−2.394 1.00 30.00 82 CB VAL 12 133.080 −0.427 −3.386 1.00 30.00 83 CG1VAL 12 131.886 −0.315 −4.316 1.00 30.00 84 CG2 VAL 12 133.288 −0.866−2.610 1.00 30.00 85 C VAL 12 134.269 −2.341 −2.357 1.00 30.00 86 O VAL12 135.033 −2.229 −1.397 1.00 30.00 87 N GLY 13 134.560 −3.062 −3.4231.00 30.00 88 CA GLY 13 135.325 −3.742 −3.500 1.00 30.00 89 C GLY 13136.144 −3.918 −4.963 1.00 30.00 90 O GLY 13 135.244 −3.903 −5.802 1.0030.00 91 N ASP 14 137.426 −4.013 −5.273 1.00 30.00 92 CA ASP 14 137.850−4.266 −6.630 1.00 30.00 93 CB ASP 14 137.354 −5.659 −7.016 1.00 30.0094 CG ASP 14 137.870 −6.730 −6.078 1.00 30.00 95 OD2 ASP 14 137.298−6.842 −4.968 1.00 30.00 96 C ASP 14 137.467 −3.275 −7.718 1.00 30.00 97O ASP 14 137.030 −3.692 −8.790 1.00 30.00 98 OD1 ASP 14 138.845 −7.439−6.443 1.00 30.00 99 N TRP 15 137.652 −1.980 −7.465 1.00 30.00 100 CATRP 15 137.348 −0.937 −8.458 1.00 30.00 101 CB TRP 15 136.492 0.156−7.815 1.00 30.00 102 CG TRP 15 137.047 0.586 −6.511 1.00 30.00 103 CD2TRP 15 138.005 1.624 −6.304 1.00 30.00 104 CE2 TRP 15 138.408 1.566−4.948 1.00 30.00 105 CE3 TRP 15 138.574 2.596 −7.137 1.00 30.00 106 CD1TRP 15 136.890 −0.038 −5.296 1.00 30.00 107 NE1 TRP 15 137.711 0.545−4.355 1.00 30.00 108 CZ2 TRP 15 139.358 2.435 −4.410 1.00 30.00 109 CZ3TRP 15 139.527 3.465 −6.600 1.00 30.00 110 CH2 TRP 15 139.905 3.379−5.249 1.00 30.00 111 C TRP 15 138.647 −0.328 −9.027 1.00 30.00 112 OTRP 15 139.733 −0.541 −8.482 1.00 30.00 113 N GLY 16 138.546 0.402−10.135 1.00 30.00 114 CA GLY 16 139.733 1.029 −10.714 1.00 30.00 115 CGLY 16 140.336 0.329 −11.920 1.00 30.00 116 O GLY 16 141.070 −0.643−11.765 1.00 30.00 117 N GLY 17 140.058 0.840 −13.119 1.00 30.00 118 CAGLY 17 140.559 0.218 −14.338 1.00 30.00 119 C GLY 17 141.923 0.575−14.915 1.00 30.00 120 O GLY 17 142.136 0.393 −16.114 1.00 30.00 121 NVAL 18 142.842 1.100 −14.106 1.00 30.00 122 CA VAL 18 144.185 1.400−14.613 1.00 30.00 123 CB VAL 18 144.995 2.387 −13.709 1.00 30.00 124CG1 VAL 18 144.574 3.801 −13.984 1.00 30.00 125 CG2 VAL 18 144.842 2.030−12.235 1.00 30.00 126 C VAL 18 144.968 0.088 −14.674 1.00 30.00 127 OVAL 18 144.574 −0.912 −14.059 1.00 30.00 128 N PRO 19 146.110 0.080−15.383 1.00 30.00 129 CD PRO 19 147.072 −1.032 −15.327 1.00 30.00 130CA PRO 19 146.691 1.214 −16.105 1.00 30.00 131 CB PRO 19 148.074 0.697−16.499 1.00 30.00 132 CG PRO 19 148.386 −0.308 −15.417 1.00 30.00 133 CPRO 19 145.877 1.634 −17.315 1.00 30.00 134 O PRO 19 144.682 1.350−17.405 1.00 30.00 135 N ASN 20 146.547 2.321 −18.236 1.00 30.00 136 CAASN 20 145.943 2.799 −19.474 1.00 30.00 137 CB ASN 20 145.103 1.693−20.123 1.00 30.00 138 CG ASN 20 145.899 0.428 −20.374 1.00 30.00 139OD1 ASN 20 146.992 0.471 −20.947 1.00 30.00 140 ND2 ASN 20 145.343−0.711 −19.957 1.00 30.00 141 C ASN 20 145.082 4.041 −19.289 1.00 30.00142 O ASN 20 145.060 4.655 −18.217 1.00 30.00 143 N ALA 21 144.380 4.411−20.352 1.00 30.00 144 CA ALA 21 143.510 5.572 −20.327 1.00 30.00 145 CBALA 21 143.992 6.610 −21.318 1.00 30.00 146 C ALA 21 142.099 5.142−20.669 1.00 30.00 147 O ALA 21 141.876 4.467 −21.671 1.00 30.00 148 NPRO 22 141.125 5.519 −19.826 1.00 30.00 149 CD PRO 22 139.695 5.510−20.177 1.00 30.00 150 CA PRO 22 141.346 6.308 −18.603 1.00 30.00 151 CBPRO 22 139.989 6.970 −18.361 1.00 30.00 152 CG PRO 22 139.267 6.862−19.700 1.00 30.00 153 C PRO 22 141.747 5.412 −17.430 1.00 30.00 154 OPRO 22 142.462 4.433 −17.608 1.00 30.00 155 N PHE 23 141.298 5.756−16.231 1.00 30.00 156 CA PHE 23 141.593 4.942 −15.057 1.00 30.00 157 CBPHE 23 142.059 5.828 −13.886 1.00 30.00 158 CG PHE 23 141.719 5.288−12.500 1.00 30.00 159 CD1 PHE 23 142.293 4.119 −12.017 1.00 30.00 160CD2 PHE 23 140.807 5.952 −11.692 1.00 30.00 161 CE1 PHE 23 141.957 3.625−10.759 1.00 30.00 162 CE2 PHE 23 140.466 5.470 −10.438 1.00 30.00 163CZ PHE 23 141.040 4.302 −9.971 1.00 30.00 164 C PHE 23 140.310 4.207−14.699 1.00 30.00 165 O PHE 23 140.246 3.479 −13.709 1.00 30.00 166 NHIS 24 139.291 4.374 −15.535 1.00 30.00 167 CA HIS 24 138.005 3.746−15.272 1.00 30.00 168 CB HIS 24 136.968 4.817 −14.953 1.00 30.00 169 CGHIS 24 136.785 5.812 −16.054 1.00 30.00 170 CD2 HIS 24 136.039 5.763−17.185 1.00 30.00 171 ND1 HIS 24 137.454 7.018 −16.089 1.00 30.00 172CE1 HIS 24 137.125 7.668 −17.192 1.00 30.00 173 NE2 HIS 24 136.270 6.929−17.875 1.00 30.00 174 C HIS 24 137.463 2.874 −16.395 1.00 30.00 175 OHIS 24 137.894 2.959 −17.548 1.00 30.00 176 N THR 25 136.489 2.049−16.011 1.00 30.00 177 CA THR 25 135.784 1.130 −16.896 1.00 30.00 178 CBTHR 25 135.888 −0.305 −16.377 1.00 30.00 179 OG1 THR 25 135.449 −0.340−15.012 1.00 30.00 180 CG2 THR 25 137.325 −0.805 −16.467 1.00 30.00 181C THR 25 134.314 1.550 −16.865 1.00 30.00 182 O THR 25 133.878 2.230−15.932 1.00 30.00 183 N ALA 26 133.553 1.151 −17.878 1.00 30.00 184 CAALA 26 132.139 1.509 −17.925 1.00 30.00 185 CE ALA 26 131.419 0.672−18.982 1.00 30.00 186 C ALA 26 131.524 1.256 −16.558 1.00 30.00 187 OALA 26 130.741 2.064 −16.041 1.00 30.00 188 N ARG 27 131.920 0.123−15.981 1.00 30.00 189 CA ARG 27 131.432 −0.332 −14.691 1.00 30.00 190CB ARG 27 131.823 −1.796 −14.474 1.00 30.00 191 CG ARG 27 131.135 −2.741−15.433 1.00 30.00 192 CD ARG 27 131.429 −4.187 −15.116 1.00 30.00 193NE ARG 27 130.852 −5.061 −16.130 1.00 30.00 194 CZ ARG 27 131.320 −6.267−16.430 1.00 30.00 195 NH1 ARG 27 132.380 −6.748 −15.792 1.00 30.00 196NH2 ARG 27 130.743 −6.986 −17.384 1.00 30.00 197 C ARG 27 131.842 0.488−13.485 1.00 30.00 198 O ARG 27 130.998 0.782 −12.642 1.00 30.00 199 NGLU 28 133.114 0.858 −13.368 1.00 30.00 200 CA GLU 28 133.492 1.643−12.200 1.00 30.00 201 CB GLU 28 134.975 2.021 −12.215 1.00 30.00 202 CGGLU 28 135.378 2.787 −10.951 1.00 30.00 203 CD GLU 28 136.796 3.310−10.989 1.00 30.00 204 OE1 GLU 28 137.266 3.670 −12.090 1.00 30.00 205OE2 GLU 28 137.436 3.381 −9.914 1.00 30.00 206 C GLU 28 132.623 2.901−12.204 1.00 30.00 207 O GLU 28 131.988 3.251 −11.201 1.00 30.00 208 NMET 29 132.588 3.566 −13.353 1.00 30.00 209 CA MET 29 131.776 4.761−13.524 1.00 30.00 210 CS MET 29 131.762 5.150 −15.001 1.00 30.00 211 CGMET 29 133.109 5.603 −15.507 1.00 30.00 212 SD MET 29 133.606 7.152−14.730 1.00 30.00 213 CE MET 29 133.077 8.328 −16.001 1.00 30.00 214 CMET 29 130.341 4.515 −13.027 1.00 30.00 215 O MET 29 129.809 5.296−12.226 1.00 30.00 216 N ALA 30 129.730 3.426 −13.501 1.00 30.00 217 CAALA 30 128.366 3.055 −13.119 1.00 30.00 218 CB ALA 30 127.991 1.730−13.764 1.00 30.00 219 C ALA 30 128.199 2.961 −11.608 1.00 30.00 220 OALA 30 127.256 3.518 −11.042 1.00 30.00 221 N ASN 31 129.112 2.250−10.955 1.00 30.00 222 CA ASN 31 129.056 2.104 −9.506 1.00 30.00 223 CBASN 31 130.094 1.100 −9.021 1.00 30.00 224 CG ASN 31 129.642 −0.313−9.215 1.00 30.00 225 OD1 ASN 31 129.866 −0.907 −10.265 1.00 30.00 226ND2 ASN 31 128.973 −0.862 −8.203 1.00 30.00 227 C ASN 31 129.273 3.431−8.800 1.00 30.00 228 O ASN 31 128.663 3.691 −7.764 1.00 30.00 229 N ALA32 130.151 4.260 −9.366 1.00 30.00 230 CA ALA 32 130.450 5.574 −8.8071.00 30.00 231 CD ALA 32 131.516 6.270 −9.649 1.00 30.00 232 C ALA 32129.165 6.397 −8.787 1.00 30.00 233 O ALA 32 128.817 7.006 −7.769 1.0030.00 234 N LYS 33 128.457 6.396 −9.917 1.00 30.00 235 CA LYS 33 127.2017.129 −10.043 1.00 30.00 236 CB LYS 33 126.670 7.052 −11.479 1.00 30.00237 CG LYS 33 125.255 7.599 −11.635 1.00 30.00 238 CD LYS 33 124.8827.822 −13.085 1.00 30.00 239 CE LYS 33 125.720 8.938 −13.690 1.00 30.00240 NZ LYS 33 125.321 9.257 15.089 1.00 30.00 241 C LYS 33 126.134 6.620−9.077 1.00 30.00 242 O LYS 33 125.422 7.423 −8.466 1.00 30.00 243 N GLU34 126.028 5.296 −8.933 1.00 30.00 244 CA GLU 34 125.026 4.707 −8.0421.00 30.00 245 CB GLU 34 124.306 3.225 −8.362 1.00 30.00 246 CG GLU 34123.694 2.581 −7.538 1.00 30.00 247 CD GLU 34 122.423 3.423 −7.531 1.0030.00 248 OE1 GLU 34 122.011 3.870 −8.624 1.00 30.00 249 OE2 GLU 34121.839 3.638 −6.441 1.00 30.00 250 C GLU 34 125.384 4.855 −6.572 1.0030.00 251 O GLU 34 124.507 5.104 −5.743 1.00 30.00 252 N ILE 35 126.6624.687 −6.243 1.00 30.00 253 CA ILE 35 127.103 4.835 −4.856 1.00 30.00254 CB ILE 35 128.597 4.470 −4.673 1.00 30.00 255 CG2 ILE 35 129.0514.824 −3.256 1.00 30.00 256 OG1 ILE 35 128.805 2.977 −4.935 1.00 30.00257 CD1 ILE 35 130.257 2.571 −4.967 1.00 30.00 258 C ILE 35 126.8976.290 −4.456 1.00 30.00 259 O ILE 35 126.728 6.605 −3.271 1.00 30.00 260N ALA 36 126.907 7.178 −5.448 1.00 30.00 261 CA ALA 36 126.691 8.593−5.174 1.00 30.00 262 CB ALA 36 127.163 9.449 −6.350 1.00 30.00 263 CALA 36 125.204 8.842 −4.896 1.00 30.00 264 O ALA 36 124.861 9.568 −3.9661.00 30.00 265 N ARG 37 124.323 8.235 −5.690 1.00 30.00 266 CA ARG 37122.899 8.438 −5.483 1.00 30.00 267 GB ARG 37 122.074 7.923 −6.665 1.0030.00 268 CG ARG 37 120.561 8.052 −6.418 1.00 30.00 269 CD ARG 37119.761 8.324 −7.690 1.00 30.00 270 NE ARG 37 119.886 7.241 −8.659 1.0030.00 271 CZ ARG 37 119.471 6.000 −8.439 1.00 30.00 272 NH1 ARG 37118.899 5.684 −7.281 1.00 30.00 273 NH2 ARG 37 119.638 5.076 −9.375 1.0030.00 274 C ARG 37 122.430 7.758 −4.218 1.00 30.00 275 O ARG 37 121.7068.352 −3.415 1.00 30.00 276 N THR 38 122.841 6.504 −4.057 1.00 30.00 277CA THR 38 122.484 5.707 −2.893 1.00 30.00 278 CB THR 38 123.294 4.372−2.886 1.00 30.00 279 OG1 THR 38 122.665 3.430 −3.773 1.00 30.00 280 CG2THR 38 123.389 3.781 −1.475 1.00 30.00 281 C THR 38 122.734 6.489 −1.6011.00 30.00 282 O THR 38 121.932 6.433 −0.661 1.00 30.00 283 N VAL 39123.836 7.232 −1.565 1.00 30.00 284 CA VAL 39 124.181 8.016 −0.386 1.0030.00 285 CB VAL 39 125.730 8.201 −0.299 1.00 30.00 286 CG1 VAL 39126.241 8.909 −1.536 1.00 30.00 287 CG2 VAL 39 126.107 8.951 0.970 1.0030.00 288 C VAL 39 123.436 9.374 −0.322 1.00 30.00 289 O VAL 39 123.41510.028 0.720 1.00 30.00 290 N GLN 40 122.818 9.794 −1.425 1.00 30.00 291CA GLN 40 122.047 11.043 −1.421 1.00 30.00 292 CB GLN 40 121.663 11.487−2.829 1.00 30.00 293 CG GLN 40 122.802 11.684 −3.787 1.00 30.00 294 CDGLN 40 122.318 12.190 −5.131 1.00 30.00 295 OE1 GLN 40 123.081 12.262−6.097 1.00 30.00 296 NE2 GLN 40 121.040 12.554 −5.196 1.00 30.00 297 CGLN 40 120.754 10.719 −0.697 1.00 30.00 298 O GLN 40 120.290 11.4540.167 1.00 30.00 299 N ILE 41 120.183 9.590 −1.085 1.00 30.00 300 CA ILE41 118.938 9.099 −0.535 1.00 30.00 301 CB ILE 41 118.365 8.042 −1.4991.00 30.00 302 CG2 ILE 41 116.981 7.609 −1.066 1.00 30.00 303 CG1 ILE 41118.325 8.644 −2.912 1.00 30.00 304 CD1 ILE 41 117.797 7.725 −3.974 1.0030.00 305 C ILE 41 119.083 8.545 0.093 1.00 30.00 306 O ILE 41 118.5409.115 1.845 1.00 30.00 307 N MET 42 119.824 7.454 1.057 1.00 30.00 308CA MET 42 120.006 6.863 2.387 1.00 30.00 309 CB MET 42 120.429 5.3882.260 1.00 30.00 310 CG MET 42 119.292 4.367 2.156 1.00 30.00 311 SD MET42 118.354 4.383 0.607 1.00 30.00 312 CE MET 42 119.623 3.863 −0.5811.00 30.00 313 C MET 42 121.021 7.600 3.282 1.00 30.00 314 O MET 42120.872 7.637 4.507 1.00 30.00 315 N GLY 43 122.046 8.186 2.670 1.0030.00 316 CA GLY 43 123.070 8.864 3.443 1.00 30.00 317 C GLY 43 124.0977.832 3.872 1.00 30.00 318 O GLY 43 123.749 6.677 4.100 1.00 30.00 319 NALA 44 125.362 8.220 3.977 1.00 30.00 320 CA ALA 44 126.401 7.276 4.3851.00 30.00 321 CD ALA 44 127.068 6.665 3.141 1.00 30.00 322 C ALA 44127.451 7.954 5.265 1.00 30.00 323 O ALA 44 127.889 9.066 4.966 1.0030.00 324 N ASP 45 127.849 7.292 6.351 1.00 30.00 325 CA ASP 45 128.8737.844 7.246 1.00 30.00 326 CB ASP 45 128.903 7.087 8.571 1.00 30.00 327CG ASP 45 127.612 7.200 9.323 1.00 30.00 328 OD1 ASP 45 127.397 6.41610.265 1.00 30.00 329 OD2 ASP 45 126.808 8.083 8.973 1.00 30.00 330 CASP 45 130.240 7.740 6.583 1.00 30.00 331 O ASP 45 131.011 8.699 6.5621.00 30.00 332 N PHE 46 130.541 6.567 6.042 1.00 30.00 333 CA PHE 46131.820 6.381 5.380 1.00 30.00 334 CB PHE 46 132.895 5.983 6.397 1.0030.00 335 CG PHE 46 132.656 4.660 7.054 1.00 30.00 336 CD1 PHE 46133.039 3.481 6.430 1.00 30.00 337 CD2 PHE 46 132.068 4.591 8.312 1.0030.00 338 CE1 PHE 46 132.846 2.245 7.054 1.00 30.00 339 CE2 PHE 46131.866 3.358 8.947 1.00 30.00 340 CZ PHE 46 132.258 2.186 8.317 1.0030.00 341 C PHE 46 131.739 5.350 4.275 1.00 30.00 342 O PHE 46 130.6754.814 3.973 1.00 30.00 343 N ILE 47 132.879 5.084 3.663 1.00 30.00 344CA ILE 47 132.945 4.113 2.591 1.00 30.00 345 CB ILE 47 132.968 4.8261.221 1.00 30.00 346 CG2 ILE 47 133.182 3.819 0.098 1.00 30.00 347 CG1ILE 47 131.660 5.594 1.025 1.00 30.00 348 CD1 ILE 47 131.601 6.372−0.273 1.00 30.00 349 C ILE 47 134.220 3.307 2.775 1.00 30.00 350 O ILE47 135.273 3.886 3.015 1.00 30.00 351 N MET 48 134.134 1.978 2.717 1.0030.00 352 CA MET 48 135.350 1.182 2.838 1.00 30.00 353 CB MET 48 135.3060.176 4.002 1.00 30.00 354 CG MET 48 134.511 −1.084 3.761 1.00 30.00 355SD MET 48 134.848 −2.367 5.017 1.00 30.00 356 CE MET 48 134.008 −1.6916.535 1.00 30.00 357 C MET 48 135.595 0.451 1.541 1.00 30.00 358 O MET48 134.696 −0.182 0.980 1.00 30.00 359 N SER 49 136.816 0.604 1.048 1.0030.00 360 CA SER 49 137.270 −0.040 −0.168 1.00 30.00 361 CB SER 49138.421 0.762 −0.773 1.00 30.00 362 OG SER 49 138.718 0.342 −2.087 1.0030.00 363 C SER 49 137.769 −1.403 0.303 1.00 30.00 364 O SER 49 138.572−1.493 1.229 1.00 30.00 365 N LEU 50 137.283 −2.466 −0.317 1.00 30.00366 CA LEU 50 137.694 −3.793 0.093 1.00 30.00 367 CB LEU 50 136.505−4.743 −0.012 1.00 30.00 368 CG LEU 50 135.395 −4.431 1.003 1.00 30.00369 CD1 LEU 50 134.104 −5.139 0.610 1.00 30.00 370 CD2 LEU 50 135.856−4.844 2.399 1.00 30.00 371 C LEU 50 138.901 −4.355 −0.650 1.00 30.00372 O LEU 50 139.201 −5.536 −0.525 1.00 30.00 373 N GLY 51 139.598−3.529 −1.428 1.00 30.00 374 CA GLY 51 140.778 −4.041 −2.107 1.00 30.00375 C GLY 51 140.865 −3.903 −3.609 1.00 30.00 376 O GLY 51 139.854−3.725 −4.277 1.00 30.00 377 N ASP 52 142.080 −4.031 −4.140 1.00 30.00378 CA ASP 52 142.312 −3.874 −5.567 1.00 30.00 379 CB ASP 52 141.503−4.905 −6.368 1.00 30.00 380 CG ASP 52 142.065 −6.328 −6.254 1.00 30.00381 OD1 ASP 52 143.282 −6.490 −6.002 1.00 30.00 382 C ASP 52 141.892−2.444 −5.930 1.00 30.00 383 O ASP 52 141.074 −2.224 −6.821 1.00 30.00384 OD2 ASP 52 141.283 −7.295 −6.440 1.00 30.00 385 N ASN 53 142.476−1.482 −5.214 1.00 30.00 386 CA ASN 53 142.209 −0.052 −5.391 1.00 30.00387 CE ASN 53 142.853 0.719 −4.232 1.00 30.00 388 CG ASN 53 142.3270.264 −2.877 1.00 30.00 389 OD1 ASN 53 141.131 0.333 −2.617 1.00 30.00390 ND2 ASN 53 143.217 −0.205 −2.014 1.00 30.00 391 C ASN 53 142.6080.575 −6.752 1.00 30.00 392 O ASN 53 141.945 1.501 −7.240 1.00 30.00 393N PHE 54 143.691 0.088 −7.354 1.00 30.00 394 CA PHE 54 144.143 0.569−8.670 1.00 30.00 395 CB PHE 54 145.278 1.572 −8.497 1.00 30.00 396 CGPHE 54 144.929 2.685 −7.559 1.00 30.00 397 CD1 PHE 54 145.239 2.593−6.201 1.00 30.00 398 CD2 PHE 54 144.201 3.781 −8.008 1.00 30.00 399 CE1PHE 54 144.820 3.577 −5.305 1.00 30.00 400 CE2 PHE 54 143.778 4.769−7.124 1.00 30.00 401 CZ PHE 54 144.087 4.666 −5.769 1.00 30.00 402 CPHE 54 144.582 −0.736 −9.298 1.00 30.00 403 O PHE 54 145.712 −1.179−9.139 1.00 30.00 404 N TYR 55 143.656 −1.317 −10.048 1.00 30.00 405 CATYR 55 143.779 −2.665 −10.581 1.00 30.00 406 CB TYR 55 142.641 −2.941−11.542 1.00 30.00 407 CG TYR 55 141.719 −3.887 −10.869 1.00 30.00 408CD1 TYR 55 140.739 −3.409 −10.015 1.00 30.00 409 CE1 TYR 55 139.992−4.259 −9.260 1.00 30.00 410 CD2 TYR 55 141.920 −5.261 −10.954 1.0030.00 411 CE2 TYR 55 141.169 −6.129 −10.191 1.00 30.00 412 CZ TYR 55140.212 −5.610 −9.352 1.00 30.00 413 C TYR 55 144.940 −3.495 −11.0661.00 30.00 414 O TYR 55 144.973 −4.672 −10.701 1.00 30.00 415 OH TYR 55139.438 −6.428 −8.585 1.00 30.00 416 N PHE 56 145.890 −3.019 −11.8541.00 30.00 417 CA PHE 56 146.894 −4.018 −12.214 1.00 30.00 418 CB PHE 56147.140 −3.972 −13.718 1.00 30.00 419 CG PHE 56 145.953 −4.489 −14.5131.00 30.00 420 CD1 PHE 56 145.902 −4.374 −15.894 1.00 30.00 421 CD2 PHE56 144.860 −5.072 −13.854 1.00 30.00 422 CE1 PHE 56 144.782 −4.827−16.606 1.00 30.00 423 CE2 PHE 56 143.744 −5.522 −14.555 1.00 30.00 424CZ PHE 56 143.702 −5.400 −15.927 1.00 30.00 425 C PHE 56 148.144 −4.002−11.349 1.00 30.00 426 O PHE 56 148.644 −5.051 −10.944 1.00 30.00 427 NTHR 57 148.614 −2.812 −11.025 1.00 30.00 428 CA THR 57 149.738 −2.650−10.133 1.00 30.00 429 CB THR 57 151.057 −2.470 −10.875 1.00 30.00 430OG1 THR 57 151.244 −3.554 −11.792 1.00 30.00 431 CG2 THR 57 152.205−2.468 −9.883 1.00 30.00 432 C THR 57 149.331 −1.368 −9.447 1.00 30.00433 O THR 57 149.179 −0.330 −10.091 1.00 30.00 434 N GLY 58 149.133−1.442 −8.141 1.00 30.00 435 CA GLY 58 148.667 −0.280 −7.411 1.00 30.00436 C GLY 58 149.544 0.869 −6.953 1.00 30.00 437 O GLY 58 150.013 0.851−5.813 1.00 30.00 438 N VAL 59 149.774 1.852 −7.826 1.00 30.00 439 CAVAL 59 150.519 3.051 −7.443 1.00 30.00 440 CB VAL 59 149.865 3.607−6.146 1.00 30.00 441 CG1 VAL 59 150.767 4.579 −5.459 1.00 30.00 442 CG2VAL 59 148.538 4.257 −6.486 1.00 30.00 443 C VAL 59 152.060 3.049 −7.2841.00 30.00 444 O VAL 59 152.616 2.332 −6.445 1.00 30.00 445 N HIS 60152.725 3.892 −8.087 1.00 30.00 446 CA HIS 60 154.192 4.069 −8.077 1.0030.00 447 CB HIS 60 154.691 4.744 −9.371 1.00 30.00 448 CG HIS 60154.563 3.906 −10.607 1.00 30.00 449 CD2 HIS 60 153.904 4.131 −11.7681.00 30.00 450 ND1 HIS 60 155.199 2.692 −10.757 1.00 30.00 451 CE1 HIS60 154.936 2.204 −11.958 1.00 30.00 452 NE2 HIS 60 154.153 3.058 −12.5911.00 30.00 453 C HIS 60 154.597 4.994 −6.927 1.00 30.00 454 O HIS 60154.911 4.553 −5.817 1.00 30.00 455 N ASP 61 154.594 6.293 −7.236 1.0030.00 456 CA ASP 61 154.949 7.348 −6.290 1.00 30.00 457 CB ASP 61154.780 8.738 −6.919 1.00 30.00 458 CG ASP 61 155.718 8.980 −8.075 1.0030.00 459 OD1 ASP 61 156.935 8.785 −7.894 1.00 30.00 460 OD2 ASP 61155.240 9.375 −9.160 1.00 30.00 461 C ASP 61 154.106 7.305 −5.033 1.0030.00 462 O ASP 61 152.872 7.219 −5.084 1.00 30.00 463 N ALA 62 154.7927.370 −3.900 1.00 30.00 464 CA ALA 62 154.123 7.379 −2.618 1.00 30.00465 CB ALA 62 155.153 7.404 −1.478 1.00 30.00 466 C ALA 62 153.286 8.653−2.615 1.00 30.00 467 O ALA 62 153.817 9.734 −2.390 1.00 30.00 468 N ASN63 151.993 8.521 −2.906 1.00 30.00 469 CA ASN 63 151.050 9.644 −2.9211.00 30.00 470 CB ASN 63 151.390 10.675 −1.832 1.00 30.00 471 CG ASN 63151.733 10.042 −0.500 1.00 30.00 472 OD1 ASN 63 151.021 9.169 −0.0171.00 30.00 473 ND2 ASN 63 152.831 10.492 0.107 1.00 30.00 474 C ASN 63150.953 10.400 −4.241 1.00 30.00 475 O ASN 63 149.864 10.759 4.683 1.0030.00 476 N ASP 64 152.096 10.651 4.861 1.00 30.00 477 CA ASP 64 152.14011.414 6.101 1.00 30.00 478 CB ASP 64 153.555 11.954 6.314 1.00 30.00479 CG ASP 64 154.056 12.749 −5.120 1.00 30.00 480 OD1 ASP 64 153.37113.713 −4.713 1.00 30.00 481 OD2 ASP 64 155.132 12.406 −4.588 1.00 30.00482 C ASP 64 151.677 10.679 −7.348 1.00 30.00 483 O ASP 64 151.42611.304 −8.378 1.00 30.00 484 N LYS 65 151.564 9.359 −7.259 1.00 30.00485 CA LYS 65 151.128 8.563 −8.398 1.00 30.00 486 CB LYS 65 150.8777.119 −7.963 1.00 30.00 487 CG LYS 65 151.125 6.090 −9.058 1.00 30.00488 CD LYS 65 150.401 6.440 −10.354 1.00 30.00 489 CE LYS 65 151.0545.694 −11.526 1.00 30.00 490 NZ LYS 65 150.570 6.149 −12.875 1.00 30.00491 C LYS 65 149.845 9.185 −8.946 1.00 30.00 492 O LYS 65 148.903 9.428−8.194 1.00 30.00 493 N ARG 66 149.814 9.447 −10.252 1.00 30.00 494 CAARG 66 148.644 10.066 −10.882 1.00 30.00 495 CB ARG 66 148.937 10.415−12.349 1.00 30.00 496 CG ARG 66 149.582 11.779 −12.566 1.00 30.00 497CD ARG 66 149.562 12.159 −14.043 1.00 30.00 498 NE ARG 66 150.212 13.444−14.306 1.00 30.00 499 CZ ARG 66 150.283 14.021 −15.504 1.00 30.00 500NH1 ARG 66 149.744 13.434 −16.567 1.00 30.00 501 NH2 ARG 66 150.90315.188 −15.645 1.00 30.00 502 C ARG 66 147.341 9.275 −10.814 1.00 30.00503 O ARG 66 146.268 9.842 −10.999 1.00 30.00 504 N PHE 67 147.419 7.974−10.556 1.00 30.00 505 CA PHE 67 146.201 7.167 −10.472 1.00 30.00 506 CBPHE 67 146.537 5.671 −10.559 1.00 30.00 507 CG PHE 67 146.973 5.223−11.931 1.00 30.00 508 CD1 PHE 67 147.549 3.970 −12.115 1.00 30.00 509CD2 PHE 67 146.826 6.061 −13.038 1.00 30.00 510 CE1 PHE 67 147.979 3.556−13.379 1.00 30.00 511 CE2 PHE 67 147.250 5.658 −14.307 1.00 30.00 512CZ PHE 67 147.828 4.402 −14.476 1.00 30.00 513 C PHE 67 145.395 7.466−9.201 1.00 30.00 514 O PHE 67 144.168 7.320 −9.189 1.00 30.00 515 N GLN68 146.081 7.880 −8.137 1.00 30.00 516 CA GLN 68 145.406 8.215 −6.8881.00 30.00 517 CB GLN 68 146.401 8.770 −5.861 1.00 30.00 518 CG GLN 68147.415 7.777 −5.285 1.00 30.00 519 CD GLN 68 146.872 7.007 −4.094 1.0030.00 520 OE1 GLN 68 147.631 6.429 −3.310 1.00 30.00 521 NE2 GLN 68145.553 6.995 −3.953 1.00 30.00 522 C GLN 68 144.392 9.301 −7.245 1.0030.00 523 O GLN 68 143.376 9.485 −6.571 1.00 30.00 524 N GLU 69 144.67410.008 −8.333 1.00 30.00 525 CA GLU 69 143.812 11.085 −8.778 1.00 30.00526 CB GLU 69 144.635 12.140 −9.511 1.00 30.00 527 CG GLU 69 145.57012.878 −8.575 1.00 30.00 528 CD GLU 69 144.872 13.276 −7.284 1.00 30.00529 OE1 GLU 69 143.770 13.867 −7.365 1.00 30.00 530 OE2 GLU 69 145.42612.996 −6.196 1.00 30.00 531 C GLU 69 142.638 10.665 −9.630 1.00 30.00532 O GLU 69 141.523 11.126 −9.402 1.00 30.00 533 N THR 70 142.856 9.799−10.609 1.00 30.00 534 CA THR 70 141.728 9.388 −11.428 1.00 30.00 535 CBTHR 70 142.179 8.618 −12.673 1.00 30.00 536 OG1 THR 70 143.356 9.232−13.220 1.00 30.00 537 CG2 THR 70 141.071 8.659 −13.729 1.00 30.00 538 CTHR 70 140.669 8.587 −10.634 1.00 30.00 539 O THR 70 139.609 8.261−11.177 1.00 30.00 540 N PHE 71 140.961 8.256 −9.367 1.00 30.00 541 CAPHE 71 139.991 7.594 −8.474 1.00 30.00 542 CB PHE 71 140.681 6.909−7.300 1.00 30.00 543 CG PHE 71 140.120 7.321 −5.946 1.00 30.00 544 CD1PHE 71 138.955 6.739 −5.445 1.00 30.00 545 CD2 PHE 71 140.731 8.327−5.196 1.00 30.00 546 CE1 PHE 71 138.408 7.153 −4.221 1.00 30.00 547 CE2PHE 71 140.193 8.748 −3.974 1.00 30.00 548 CZ PHE 71 139.032 8.160−3.487 1.00 30.00 549 C PHE 71 139.172 8.766 −7.900 1.00 30.00 550 O PHE71 137.944 8.725 −7.812 1.00 30.00 551 N GLU 72 139.906 9.799 −7.4891.00 30.00 552 CA GLO 72 139.356 11.029 −6.927 1.00 30.00 553 CB GLU 72140.500 12.017 −6.688 1.00 30.00 554 CG GLU 72 140.370 12.901 −5.4611.00 30.00 555 CD GLU 72 140.977 12.284 −4.210 1.00 30.00 556 OE1 GLU 72142.093 11.722 −4.290 1.00 30.00 557 OE2 GLU 72 140.342 12.376 −3.1381.00 30.00 558 C GLU 72 138.306 11.614 −7.956 1.00 30.00 559 O GLU 72137.332 12.145 −7.607 1.00 30.00 560 N ASP 73 138.763 11.492 −9.225 1.0030.00 561 CA ASP 73 137.982 11.991 −10.349 1.00 30.00 562 CB ASP 73138.891 12.170 −11.564 1.00 30.00 563 CG ASP 73 139.740 13.424 −11.4731.00 30.00 564 OD1 ASP 73 140.337 13.680 −10.402 1.00 30.00 565 OD2 ASP73 139.816 14.157 −12.480 1.00 30.00 566 C ASP 73 136.794 11.118 −10.7231.00 30.00 567 O ASP 73 135.791 11.625 −11.221 1.00 30.00 568 N VAL 74136.911 9.810 −10.505 1.00 30.00 569 CA VAL 74 135.818 8.878 −10.8081.00 30.00 570 CB VAL 74 136.322 7.413 −10.794 1.00 30.00 571 CG1 VAL 74135.159 6.461 −10.643 1.00 30.00 572 CG2 VAL 74 137.077 7.113 −12.0731.00 30.00 573 C VAL 74 134.699 9.044 −9.771 1.00 30.00 574 O VAL 74133.521 9.131 −10.115 1.00 30.00 575 N PHE 75 135.090 9.089 −8.500 1.0030.00 576 CA PHE 75 134.154 9.266 −7.405 1.00 30.00 577 CB PHE 75134.633 8.478 −6.181 1.00 30.00 578 CG PHE 75 134.491 6.993 −6.350 1.0030.00 579 CD1 PHE 75 135.316 6.296 −7.230 1.00 30.00 580 CD2 PHE 75133.460 6.305 −5.714 1.00 30.00 581 CE1 PHE 75 135.106 4.936 −7.478 1.0030.00 582 CE2 PHE 75 133.243 4.942 −5.956 1.00 30.00 583 CZ PHE 75134.064 4.260 −6.839 1.00 30.00 584 C PHE 75 134.032 10.753 −7.114 1.0030.00 585 O PHE 75 134.223 11.223 −5.993 1.00 30.00 586 N SER 76 133.71011.482 −8.173 1.00 30.00 587 CA SER 76 133.541 12.923 −8.132 1.00 30.00588 CB SER 76 134.385 13.564 −9.229 1.00 30.00 589 OG SER 76 133.93913.136 −10.506 1.00 30.00 590 C SER 76 132.066 13.223 −8.382 1.00 30.00591 O SER 76 131.583 13.092 −9.514 1.00 30.00 592 N ASP 77 131.35813.622 −7.327 1.00 30.00 593 CA ASP 77 129.930 13.930 −7.403 1.00 30.00594 CB ASP 77 129.128 12.633 −7.606 1.00 30.00 595 CG ASP 77 127.67612.881 −8.005 1.00 30.00 596 OD1 ASP 77 126.947 13.577 −7.255 1.00 30.00597 OD2 ASP 77 127.266 12.364 −9.072 1.00 30.00 598 C ASP 77 129.59314.551 −6.053 1.00 30.00 599 O ASP 77 129.835 13.936 −5.015 1.00 30.00600 N ARG 78 129.044 15.763 −6.067 1.00 30.00 601 CA ARG 78 128.70716.475 −4.832 1.00 30.00 602 CB ARG 78 127.722 17.617 −5.130 1.00 30.00603 CG ARG 78 126.485 17.187 −5.892 1.00 30.00 604 CD ARG 78 125.54518.356 −6.169 1.00 30.00 605 NE ARG 78 124.377 17.928 −6.939 1.00 30.00606 CZ ARG 78 123.395 18.732 −7.332 1.00 30.00 607 NH1 ARG 78 123.42820.024 −7.032 1.00 30.00 608 NH2 ARG 78 122.377 18.244 −8.030 1.00 30.00609 C ARG 78 128.164 15.607 −3.689 1.00 30.00 610 O ARG 78 128.32715.957 −2.514 1.00 30.00 611 N ALA 79 127.524 14.485 −4.022 1.00 30.00612 CA ALA 79 126.974 13.599 −2.998 1.00 30.00 613 CB ALA 79 126.12412.525 −3.642 1.00 30.00 614 C ALA 79 128.086 12.964 −2.167 1.00 30.00615 O ALA 79 128.016 12.949 −0.939 1.00 30.00 616 N LEU 80 129.11112.445 −2.842 1.00 30.00 617 CA LEU 80 130.249 11.813 −2.173 1.00 30.00618 CB LEU 80 130.865 10.733 −3.060 1.00 30.00 619 CG LEU 80 129.9909.709 −3.771 1.00 30.00 620 CD1 LEU 80 130.899 8.830 −4.594 1.00 30.00621 CD2 LEU 80 129.193 8.884 −2.779 1.00 30.00 622 C LEU 80 131.33112.850 −1.878 1.00 30.00 623 O LEU 80 132.318 12.554 −1.201 1.00 30.00624 N ARG 81 131.138 14.055 −2.416 1.00 30.00 625 CA ARG 81 132.06115.175 −2.256 1.00 30.00 626 CB ARG 81 131.364 16.480 −2.686 1.00 30.00627 CG ARG 81 132.135 17.766 −2.359 1.00 30.00 628 CD ARG 81 131.36919.046 −2.732 1.00 30.00 629 NE ARG 81 131.386 19.319 −4.170 1.00 30.00630 CZ ARG 81 130.932 20.437 −4.728 1.00 30.00 631 NH1 ARG 81 130.42021.400 −3.972 1.00 30.00 632 NH2 ARG 81 130.994 20.596 −6.043 1.00 30.00633 C ARG 81 132.641 15.344 −0.851 1.00 30.00 634 O ARG 81 133.61316.073 −0.671 1.00 30.00 635 N ASN 82 132.071 14.685 0.149 1.00 30.00636 CA ASN 82 132.608 14.843 1.491 1.00 30.00 637 CB ASN 82 131.93916.048 2.144 1.00 30.00 638 CG ASN 82 132.750 16.609 3.282 1.00 30.00639 OD1 ASN 82 133.919 16.964 3.106 1.00 30.00 640 ND2 ASN 82 132.13816.699 4.459 1.00 30.00 641 C ASN 82 132.475 13.610 2.395 1.00 30.00 642O ASN 82 132.471 13.729 3.622 1.00 30.00 643 N ILE 83 132.391 12.4271.791 1.00 30.00 644 CA ILE 83 132.241 11.185 2.545 1.00 30.00 645 CBILE 83 131.316 10.191 1.802 1.00 30.00 646 CG2 ILE 83 130.962 9.0322.728 1.00 30.00 647 CG1 ILE 83 130.042 10.894 1.322 1.00 30.00 648 CD1ILE 83 129.082 11.286 2.434 1.00 30.00 649 C ILE 83 133.565 10.459 2.8031.00 30.00 650 O ILE 83 134.266 10.071 1.858 1.00 30.00 651 N PRO 84133.919 10.258 4.090 1.00 30.00 652 CD PRO 84 133.171 10.732 5.268 1.0030.00 653 CA PRO 84 135.148 9.571 4.508 1.00 30.00 654 CB PRO 84 134.9609.410 6.017 1.00 30.00 655 CG PRO 84 134.191 10.599 6.385 1.00 30.00 656C PRO 84 135.289 8.203 3.832 1.00 30.00 657 O PRO 84 134.295 7.503 3.6191.00 30.00 658 N TRP 85 136.522 7.830 3.500 1.00 30.00 659 CA TRP 85136.805 6.535 2.885 1.00 30.00 660 CB TRP 85 137.419 6.683 1.490 1.0030.00 661 CG TRP 85 136.452 6.791 0.374 1.00 30.00 662 CD2 TRP 85136.237 5.835 −0.673 1.00 30.00 663 CE2 TRP 85 135.231 6.357 −1.516 1.0030.00 664 CE3 TRP 85 136.793 4.586 −0.979 1.00 30.00 665 CD1 TRP 85135.599 7.820 0.132 1.00 30.00 666 NE1 TRP 85 134.860 7.572 −1.000 1.0030.00 667 CZ2 TRP 85 134.766 5.676 −2.649 1.00 30.00 668 CZ3 TRP 85136.330 3.905 −2.108 1.00 30.00 669 CH2 TRP 85 135.326 4.457 −2.926 1.0030.00 670 C TRP 85 137.823 5.816 3.749 1.00 30.00 671 O TRP 85 138.8176.416 4.157 1.00 30.00 672 N TYR 86 137.565 4.541 4.032 1.00 30.00 673CA TYR 86 138.492 3.710 4.798 1.00 30.00 674 CB TYR 86 137.797 3.0936.013 1.00 30.00 675 CG TYR 86 137.431 4.141 7.023 1.00 30.00 676 CD1TYR 86 138.417 4.832 7.726 1.00 30.00 677 CE1 TYR 86 138.089 5.883 8.5811.00 30.00 678 CD2 TYR 86 136.107 4.517 7.207 1.00 30.00 679 CE2 TYR 86135.767 5.562 8.056 1.00 30.00 680 CZ TYR 86 136.759 6.242 8.738 1.0030.00 681 OH TYR 86 136.414 7.287 9.557 1.00 30.00 682 C TYR 86 138.9612.652 3.807 1.00 30.00 683 O TYR 86 138.171 1.838 3.338 1.00 30.00 684 NVAL 87 140.249 2.690 3.479 1.00 30.00 685 CA VAL 87 140.829 1.793 2.4901.00 30.00 686 CB VAL 87 141.821 2.577 1.603 1.00 30.00 687 CG1 VAL 87142.368 1.690 0.495 1.00 30.00 688 CG2 VAL 87 141.126 3.796 1.020 1.0030.00 689 C VAL 87 141.523 0.538 3.015 1.00 30.00 690 O VAL 87 141.9740.479 4.163 1.00 30.00 691 N LEU 88 141.589 −0.464 2.138 1.00 30.00 692CA LEU 88 142.224 −1.746 2.420 1.00 30.00 693 CB LEU 88 141.193 −2.8702.529 1.00 30.00 694 CG LEU 88 140.844 −3.287 3.947 1.00 30.00 695 CD1LEU 88 140.070 −4.586 3.919 1.00 30.00 696 CD2 LEU 88 142.127 −3.4404.736 1.00 30.00 697 C LEU 88 143.180 −2.118 1.311 1.00 30.00 698 O LEU88 143.013 −1.713 0.158 1.00 30.00 699 N ALA 89 144.176 −2.912 1.6781.00 30.00 700 CA ALA 89 145.163 −3.389 0.741 1.00 30.00 701 CB ALA 89146.429 −3.708 1.496 1.00 30.00 702 C ALA 89 144.641 −4.647 0.018 1.0030.00 703 O ALA 89 144.256 −5.637 0.653 1.00 30.00 704 N GLY 90 144.600−4.599 −1.307 1.00 30.00 705 CA GLY 90 144.171 −5.765 −2.069 1.00 30.00706 C GLY 90 145.430 −6.482 −2.544 1.00 30.00 707 O GLY 90 146.519−6.119 −2.104 1.00 30.00 708 N ASN 91 145.316 −7.485 −3.417 1.00 30.00709 CA ASN 91 146.517 −8.169 −3.906 1.00 30.00 710 CB ASN 91 146.217−9.592 −4.443 1.00 30.00 711 CG ASN 91 145.086 −9.631 −5.461 1.00 30.00712 ND2 ASN 91 145.415 −9.931 −6.709 1.00 30.00 713 C ASN 91 147.221−7.337 −4.973 1.00 30.00 714 O ASN 91 148.447 −7.256 −4.990 1.00 30.00715 OD1 ASN 91 143.934 −9.412 −5.122 1.00 30.00 716 N HIS 92 146.451−6.705 −5.847 1.00 30.00 717 CA HIS 92 147.035 −5.874 −6.886 1.00 30.00718 CB HIS 92 145.973 −5.490 −7.896 1.00 30.00 719 CG HIS 92 145.653−6.596 −8.847 1.00 30.00 720 CD2 HIS 92 144.741 −7.597 −8.777 1.00 30.00721 ND1 HIS 92 146.365 −6.805 −10.008 1.00 30.00 722 CE1 HIS 92 145.906−7.883 −10.615 1.00 30.00 723 NE2 HIS 92 144.922 −8.384 −9.888 1.0030.00 724 C HIS 92 147.712 −4.634 −6.333 1.00 30.00 725 O HIS 92 148.658−4.116 −6.925 1.00 30.00 726 N ASP 93 147.237 −4.163 −5.187 1.00 30.00727 CA ASP 93 147.834 −2.992 −4.562 1.00 30.00 728 CB ASP 93 146.898−2.432 −3.491 1.00 30.00 729 CG ASP 93 145.544 −2.021 −4.057 1.00 30.00730 OD1 ASP 93 145.496 −1.119 −4.927 1.00 30.00 731 OD2 ASP 93 144.523−2.602 −3.629 1.00 30.00 732 C ASP 93 149.177 −3.379 −3.943 1.00 30.00733 O ASP 93 149.985 −2.523 −3.612 1.00 30.00 734 N HIS 94 149.410−4.679 −3.789 1.00 30.00 735 CA HIS 94 150.665 −5.155 −3.228 1.00 30.00736 CB HIS 94 150.414 −6.381 −2.348 1.00 30.00 737 CG HIS 94 150.090−6.050 −0.923 1.00 30.00 738 CD2 HIS 94 148.911 −6.023 −0.258 1.00 30.00739 ND1 HIS 94 151.047 −5.669 −0.009 1.00 30.00 740 CE1 HIS 94 150.476−5.423 −1.156 1.00 30.00 741 NE2 HIS 94 149.178 −5.630 −1.030 1.00 30.00742 C HIS 94 151.678 −5.476 −4.339 1.00 30.00 743 O HIS 94 152.786−5.949 −4.070 1.00 30.00 744 N LEU 95 151.282 −5.231 −5.587 1.00 30.00745 GA LEU 95 152.162 −5.439 −6.729 1.00 30.00 746 CB LEU 95 151.371−5.909 −7.957 1.00 30.00 747 CG LEU 95 150.837 −7.355 −7.943 1.00 30.00748 CD1 LEU 95 150.032 −7.619 −9.195 1.00 30.00 749 CD2 LEU 95 151.981−8.338 −7.856 1.00 30.00 750 C LEU 95 152.769 −4.063 −6.978 1.00 30.00751 O LEU 95 153.680 −3.889 −7.785 1.00 30.00 752 N GLY 96 152.234−3.088 −6.252 1.00 30.00 753 CA GLY 96 152.702 −1.720 −6.338 1.00 30.00754 C GLY 96 153.147 −1.279 −4.953 1.00 30.00 755 O GLY 96 153.381−2.122 −4.069 1.00 30.00 756 N ASN 97 153.257 −0.034 −4.756 1.00 30.00757 CA ASN 97 153.692 −0.595 −3.480 1.00 30.00 758 CB ASN 97 154.437−1.922 −3.710 1.00 30.00 759 CG ASN 97 154.997 −2.522 −2.418 1.00 30.00760 OD1 ASN 97 154.719 −2.024 −1.315 1.00 30.00 761 ND2 ASN 97 155.778−3.608 −2.546 1.00 30.00 762 C ASN 97 152.501 −0.824 −2.561 1.00 30.00763 O ASN 97 151.706 −1.739 −2.787 1.00 30.00 764 N VAL 98 152.385−0.008 −1.527 1.00 30.00 765 CA VAL 98 151.292 0.102 −0.559 1.00 30.00766 CB VAL 98 151.119 −1.228 0.231 1.00 30.00 767 CG1 VAL 98 150.361−0.999 1.527 1.00 30.00 768 CG2 VAL 98 150.343 −2.209 −0.621 1.00 30.00769 C VAL 98 151.495 1.276 0.405 1.00 30.00 770 O VAL 98 150.550 2.0090.725 1.00 30.00 771 N SER 99 152.733 1.459 0.855 1.00 30.00 772 CA SER99 153.065 2.547 1.762 1.00 30.00 773 CB SER 99 154.567 2.580 1.997 1.0030.00 774 OG SER 99 155.018 1.296 2.372 1.00 30.00 775 C SER 99 152.6183.841 1.110 1.00 30.00 776 O SER 99 152.350 4.834 1.792 1.00 30.00 777 NALA 100 152.542 3.809 −0.220 1.00 30.00 778 CA ALA 100 152.121 4.948−1.025 1.00 30.00 779 CB ALA 100 152.297 4.632 −2.492 1.00 30.00 780 CALA 100 150.665 5.291 −0.747 1.00 30.00 781 O ALA 100 150.330 6.435−0.447 1.00 30.00 782 N GLN 101 149.795 4.296 −0.851 1.00 30.00 783 CAGLN 101 148.384 4.526 −0.599 1.00 30.00 784 CB GLN 101 147.572 3.283−0.961 1.00 30.00 785 CG GLN 101 147.754 2.791 −2.384 1.00 30.00 786 CDGLN 101 146.773 1.681 −2.723 1.00 30.00 787 OE1 GLN 101 146.866 1.048−3.779 1.00 30.00 780 NE2 GLN 101 145.817 1.446 −1.827 1.00 30.00 789 CGLN 101 148.170 4.876 0.872 1.00 30.00 790 O GLN 101 147.236 5.580 1.2221.00 30.00 791 N ILE 102 149.027 4.368 1.744 1.00 30.00 792 CA ILE 102148.891 4.678 3.161 1.00 30.00 793 CB ILE 102 149.879 3.860 4.013 1.0030.00 794 CG2 ILE 102 149.891 4.384 5.440 1.00 30.00 795 CG1 ILE 102149.496 2.380 3.966 1.00 30.00 796 CD1 ILE 102 150.504 1.458 4.624 1.0030.00 797 C ILE 102 149.173 6.164 3.370 1.00 30.00 798 O ILE 102 148.3776.883 3.971 1.00 30.00 799 N ALA 103 150.311 6.618 2.858 1.00 30.00 800CA ALA 103 150.713 8.010 2.989 1.00 30.00 801 CB ALA 103 152.126 8.1872.457 1.00 30.00 802 C ALA 103 149.756 8.945 2.256 1.00 30.00 803 O ALA103 149.598 10.107 2.633 1.00 30.00 804 N TYR 104 149.112 8.432 1.2121.00 30.00 805 CA TYR 104 148.191 9.233 0.422 1.00 30.00 806 CB TYR 104147.545 8.391 −0.661 1.00 30.00 807 CG TYR 104 146.740 9.220 −1.612 1.0030.00 808 CD1 TYR 104 147.366 10.120 −2.465 1.00 30.00 809 CE1 TYR 104146.637 10.894 −3.345 1.00 30.00 810 CD2 TYR 104 145.350 9.117 −1.6581.00 30.00 811 CE2 TYR 104 144.605 9.894 −2.540 1.00 30.00 812 CZ TYR104 145.262 10.778 −3.380 1.00 30.00 813 OH TYR 104 144.553 11.532−4.274 1.00 30.00 814 C TYR 104 147.098 9.850 1.273 1.00 30.00 815 O TYR104 146.441 10.806 0.859 1.00 30.00 816 N SER 105 146.902 9.294 2.4621.00 30.00 817 CA SER 105 145.885 9.790 3.375 1.00 30.00 818 CB SER 105145.605 8.749 4.457 1.00 30.00 819 OG SER 105 146.735 8.561 5.286 1.0030.00 820 C SER 105 146.328 11.102 4.013 1.00 30.00 821 O SER 105145.703 11.587 4.955 1.00 30.00 822 N LYS 106 147.421 11.660 3.498 1.0030.00 823 CA LYS 106 147.962 12.930 3.983 1.00 30.00 824 CB LYS 106149.460 12.796 4.271 1.00 30.00 825 CG LYS 106 149.806 11.766 5.349 1.0030.00 826 CD LYS 106 149.527 12.280 6.752 1.00 30.00 827 CE LYS 106150.428 13.461 7.092 1.00 30.00 828 NZ LYS 106 150.255 13.953 8.489 1.0030.00 829 C LYS 106 147.724 13.993 2.903 1.00 30.00 830 O LYS 106147.709 15.194 3.184 1.00 30.00 831 N ILE 107 147.529 13.531 1.669 1.0030.00 832 CA ILE 107 147.265 14.412 0.534 1.00 30.00 833 CB ILE 107147.880 13.835 −0.774 1.00 30.00 834 CG2 ILE 107 147.514 14.704 −1.9771.00 30.00 835 CG1 ILE 107 149.405 13.750 −0.628 1.00 30.00 836 CD1 ILE107 150.139 13.581 −1.936 1.00 30.00 837 C ILE 107 145.750 14.577 0.3541.00 30.00 838 O ILE 107 145.284 15.607 −0.133 1.00 30.00 839 N SER 108144.990 13.559 0.758 1.00 30.00 840 CA SER 108 143.530 13.577 0.645 1.0030.00 841 CB SER 108 143.063 12.475 −0.317 1.00 30.00 842 OG SER 108141.732 12.684 −0.743 1.00 30.00 843 C SER 108 142.862 13.399 2.018 1.0030.00 844 O SER 108 143.147 12.449 2.769 1.00 30.00 845 N LYS 109141.970 14.323 2.349 1.00 30.00 846 CA LYS 109 141.291 14.249 3.627 1.0030.00 847 CB LYS 109 140.540 15.555 3.922 1.00 30.00 848 CG LYS 109139.216 15.723 3.198 1.00 30.00 849 CD LYS 109 138.382 16.794 3.885 1.0030.00 850 CE LYS 109 136.960 16.860 3.347 1.00 30.00 851 NZ LYS 109136.185 17.956 4.005 1.00 30.00 852 C LYS 109 140.328 13.066 3.648 1.0030.00 853 O LYS 109 140.230 12.359 4.653 1.00 30.00 854 N ARG 110139.632 12.834 2.538 1.00 30.00 855 CA ARG 110 138.683 11.729 2.497 1.0030.00 856 CB ARG 110 137.707 11.875 1.322 1.00 30.00 857 CG ARG 110138.249 11.610 −0.070 1.00 30.00 858 CD ARG 110 137.103 11.764 −1.0781.00 30.00 859 NE ARG 110 137.556 11.734 −2.468 1.00 30.00 860 CZ ARG110 136.751 11.567 −3.516 1.00 30.00 861 NH1 ARG 110 135.437 11.411−3.338 1.00 30.00 862 NH2 ARG 110 137.264 11.551 −4.745 1.00 30.00 863 CARG 110 139.346 10.359 2.455 1.00 30.00 864 O ARG 110 138.750 9.3642.869 1.00 30.00 865 N TRP 111 140.579 10.303 1.969 1.00 30.00 866 CATRP 111 141.285 9.034 1.910 1.00 30.00 867 CB TRP 111 142.356 9.0720.823 1.00 30.00 868 CG TRP 111 143.066 7.764 0.631 1.00 30.00 869 CD2TRP 111 142.801 6.788 −0.387 1.00 30.00 870 CE2 TRP 111 143.730 5.742−0.208 1.00 30.00 871 CE3 TRP 111 141.870 6.699 −1.434 1.00 30.00 872CD1 TRP 111 144.105 7.281 1.367 1.00 30.00 073 NE1 TRP 111 144.511 6.0700.869 1.00 30.00 874 CZ2 TRP 111 143.761 4.612 −1.045 1.00 30.00 875 CZ3TRP 111 141.898 5.576 −2.268 1.00 30.00 876 CH2 TRP 111 142.840 4.549−2.065 1.00 30.00 877 C TRP 111 141.925 8.703 3.253 1.00 30.00 878 O TRP111 142.803 9.418 3.715 1.00 30.00 879 N ASN 112 141.460 7.624 3.8721.00 30.00 880 CA ASN 112 141.975 7.173 5.156 1.00 30.00 881 CB ASN 112140.856 7.073 6.189 1.00 30.00 882 CG ASN 112 140.337 8.419 6.613 1.0030.00 883 OD1 ASN 112 139.866 9.203 5.789 1.00 30.00 884 ND2 ASN 112140.415 8.697 7.910 1.00 30.00 885 C ASN 112 142.613 5.804 5.001 1.0030.00 886 O ASN 112 141.952 4.843 4.607 1.00 30.00 887 N PHE 113 143.8965.720 5.329 1.00 30.00 888 CA PHE 113 144.636 4.474 5.218 1.00 30.00 889CB PHE 113 145.008 4.224 3.749 1.00 30.00 890 CG PHE 113 145.328 2.7913.435 1.00 30.00 891 CD1 PHE 113 145.511 2.387 2.117 1.00 30.00 892 CD2PHE 113 145.454 1.842 4.454 1.00 30.00 893 CE1 PHE 113 145.817 1.0651.816 1.00 30.00 894 CE2 PHE 113 145.759 0.513 4.164 1.00 30.00 895 CZPHE 113 145.941 0.125 2.845 1.00 30.00 896 C PHE 113 145.882 4.643 6.0721.00 30.00 897 O PHE 113 146.976 4.869 5.562 1.00 30.00 898 N PRO 114145.721 4.531 7.395 1.00 30.00 899 CD PRO 114 144.460 4.073 8.009 1.0030.00 900 CA PRO 114 146.775 4.666 8.409 1.00 30.00 901 CB PRO 114145.973 4.678 9.710 1.00 30.00 902 CG PRO 114 144.889 3.691 9.413 1.0030.00 903 C PRO 114 147.861 3.574 8.395 1.00 30.00 904 O PRO 114 149.0513.861 8.483 1.00 30.00 905 N SER 115 147.431 2.323 8.282 1.00 30.00 906CA SER 115 148.331 1.181 8.268 1.00 30.00 907 CB SER 115 148.440 0.6139.687 1.00 30.00 908 OG SER 115 148.930 −0.721 9.690 1.00 30.00 909 CSER 115 147.760 0.121 7.315 1.00 30.00 910 O SER 115 146.628 0.241 6.8541.00 30.00 911 N PRO 116 148.549 −0.909 6.970 1.00 30.00 912 CD PRO 116150.010 −1.038 7.129 1.00 30.00 913 CA PRO 116 148.029 −1.947 6.070 1.0030.00 914 CB PRO 116 149.204 −2.914 5.959 1.00 30.00 915 CG PRO 116150.382 −1.978 6.006 1.00 30.00 916 C PRO 116 146.793 −2.594 6.722 1.0030.00 917 O PRO 116 145.847 −3.022 6.048 1.00 30.00 918 N TYR 117146.842 −2.666 8.049 1.00 30.00 919 CA TYR 117 145.754 −3.201 8.840 1.0030.00 920 CB TYR 117 146.018 −4.655 9.252 1.00 30.00 921 CG TYR 117147.243 −4.907 10.106 1.00 30.00 922 CD1 TYR 117 148.462 −5.277 9.5311.00 30.00 923 CE1 TYR 117 149.570 −5.591 10.322 1.00 30.00 924 CD2 TYR117 147.169 −4.845 11.495 1.00 30.00 925 CE2 TYR 117 148.273 −5.15412.294 1.00 30.00 926 CZ TYR 117 149.467 −5.531 11.700 1.00 30.00 927 OHTYR 117 150.544 −5.874 12.491 1.00 30.00 928 C TYR 117 145.641 −2.29910.064 1.00 30.00 929 O TYR 117 146.654 −1.871 10.615 1.00 30.00 930 NTYR 118 144.409 −2.004 10.476 1.00 30.00 931 CA TYR 118 144.170 −1.11911.606 1.00 30.00 932 CB TYR 118 144.304 0.336 11.140 1.00 30.00 933 CGTYR 118 143.507 0.660 9.885 1.00 30.00 934 CD1 TYR 118 142.230 1.2289.965 1.00 30.00 935 CE1 TYR 118 141.498 1.538 8.804 1.00 30.00 936 CD2TYR 118 144.031 0.404 8.612 1.00 30.00 937 CE2 TYR 118 143.308 0.7057.444 1.00 30.00 938 CZ TYR 118 142.046 1.272 7.550 1.00 30.00 939 OHTYR 118 141.331 1.562 6.407 1.00 30.00 940 C TYR 118 142.799 −1.33412.230 1.00 30.00 941 O TYR 118 142.000 −2.127 11.744 1.00 30.00 942 NARG 119 142.540 −0.617 13.317 1.00 30.00 943 CA ARG 119 141.262 −0.71014.006 1.00 30.00 944 CB ARG 119 141.468 −1.001 15.488 1.00 30.00 945 CGARG 119 140.175 −1.135 16.268 1.00 30.00 946 CD ARG 119 140.457 −1.03417.732 1.00 30.00 947 NE ARG 119 140.980 0.294 18.031 1.00 30.00 948 CZARG 119 141.572 0.635 19.172 1.00 30.00 949 NH1 ARG 119 141.726 −0.25920.143 1.00 30.00 950 NH2 ARG 119 142.006 1.878 19.345 1.00 30.00 951 CARG 119 140.489 0.592 13.870 1.00 30.00 952 O ARG 119 141.047 1.67414.042 1.00 30.00 953 N LEU 120 139.206 0.471 13.547 1.00 30.00 954 CALEU 120 138.313 1.612 13.409 1.00 30.00 955 CB LEU 120 137.605 1.57312.055 1.00 30.00 956 CG LEU 120 138.452 1.765 10.798 1.00 30.00 957 CD1LEU 120 137.593 1.526 9.561 1.00 30.00 958 CD2 LEU 120 139.034 3.17010.783 1.00 30.00 959 C LEU 120 137.295 1.459 14.533 1.00 30.00 960 OLEU 120 137.020 0.344 14.981 1.00 30.00 961 N ARG 121 136.737 2.56815.000 1.00 30.00 962 CA ARG 121 135.763 2.499 16.083 1.00 30.00 963 CBARG 121 136.466 2.703 17.421 1.00 30.00 964 CG ARG 121 135.738 2.09218.586 1.00 30.00 965 CD ARG 121 136.687 1.209 19.387 1.00 30.00 966 NEARG 121 137.782 1.981 19.971 1.00 30.00 967 CZ ARG 121 138.679 1.49120.822 1.00 30.00 968 NH1 ARG 121 138.619 0.219 21.195 1.00 30.00 969NH2 ARG 121 139.627 2.201 21.313 1.00 30.00 970 C ARG 121 134.656 3.52915.921 1.00 30.00 971 O ARG 121 134.885 4.725 16.057 1.00 30.00 972 NPHE 122 133.450 3.059 15.634 1.00 30.00 973 CA PHE 122 132.329 3.96315.451 1.00 30.00 974 CB PHE 122 131.702 3.732 14.080 1.00 30.00 975 CGPHE 122 132.685 3.823 12.944 1.00 30.00 976 CD1 PHE 122 133.584 2.78812.701 1.00 30.00 977 CD2 PHE 122 132.720 4.943 12.122 1.00 30.00 978CE1 PHE 122 134.507 2.867 11.654 1.00 30.00 979 CE2 PHE 122 133.6345.031 11.080 1.00 30.00 980 CZ PHE 122 134.533 3.988 10.844 1.00 30.00981 C PHE 122 131.273 3.833 16.546 1.00 30.00 982 O PHE 122 131.4243.055 17.493 1.00 30.00 983 N LYS 123 130.207 4.611 16.417 1.00 30.00984 CA LYS 123 129.136 4.591 17.405 1.00 30.00 985 CB LYS 123 129.4725.572 18.536 1.00 30.00 986 CG LYS 123 128.711 5.337 19.826 1.00 30.00987 CD LYS 123 129.333 6.120 20.972 1.00 30.00 988 CE LYS 123 128.6615.791 22.298 1.00 30.00 989 NZ LYS 123 129.244 6.563 23.431 1.00 30.00990 C LYS 123 127.795 4.956 16.766 1.00 30.00 991 O LYS 123 127.7045.901 15.974 1.00 30.00 992 N VAL 124 126.759 4.194 17.097 1.00 30.00993 CA VAL 124 125.437 4.466 16.553 1.00 30.00 994 CB VAL 124 124.4583.293 16.797 1.00 30.00 995 CG1 VAL 124 125.115 1.972 16.420 1.00 30.00996 CG2 VAL 124 123.994 3.292 18.248 1.00 30.00 997 C VAL 124 124.8845.699 17.259 1.00 30.00 998 O VAL 124 125.146 5.911 18.443 1.00 30.00999 N PRO 125 124.115 6.532 16.540 1.00 30.00 1000 CD PRO 125 123.8756.496 15.086 1.00 30.00 1001 CA PRO 125 123.531 7.741 17.129 1.00 30.001002 CB PRO 125 122.673 8.286 15.994 1.00 30.00 1003 CG PRO 125 123.4797.926 14.791 1.00 30.00 1004 C PRO 125 122.718 7.432 18.390 1.00 30.001005 O PRO 125 122.264 8.338 19.087 1.00 30.00 1006 N ARG 126 122.5336.144 18.668 1.00 30.00 1007 CA ARG 126 121.801 5.709 19.852 1.00 30.001008 CB ARG 126 120.879 4.538 19.506 1.00 30.00 1009 CG ARG 126 119.7744.904 18.519 1.00 30.00 1010 CD ARG 126 118.975 6.121 18.995 1.00 30.001011 NE ARG 126 117.931 6.510 18.047 1.00 30.00 1012 CZ ARG 126 117.1227.556 18.202 1.00 30.00 1013 NH1 ARG 126 117.229 8.331 19.273 1.00 30.001014 NH2 ARG 126 116.202 7.828 17.285 1.00 30.00 1015 C ARG 126 122.8065.316 20.931 1.00 30.00 1016 O ARG 126 122.684 4.282 21.594 1.00 30.001017 N SER 127 123.809 6.178 21.069 1.00 30.00 1018 CA SER 127 124.8966.051 22.032 1.00 30.00 1019 CB SER 127 124.500 6.722 23.351 1.00 30.001020 OG SER 127 124.435 8.132 23.202 1.00 30.00 1021 C SER 127 125.4324.654 22.310 1.00 30.00 1022 O SER 127 126.070 4.048 21.450 1.00 30.001023 N ASN 128 125.183 4.166 23.524 1.00 30.00 1024 CA ASN 128 125.6492.857 23.981 1.00 30.00 1025 CB ASN 128 124.559 2.186 24.825 1.00 30.001026 CG ASN 128 124.387 2.847 26.179 1.00 30.00 1027 OD1 ASN 128 125.3292.918 26.968 1.00 30.00 1028 ND2 ASN 128 123.183 3.336 26.456 1.00 30.001029 C ASN 128 126.136 1.892 22.899 1.00 30.00 1030 O ASN 128 127.2191.314 23.023 1.00 30.00 1031 N ILE 129 125.340 1.724 21.845 1.00 30.001032 CA ILE 129 125.688 0.826 20.746 1.00 30.00 1033 CB ILE 129 124.5010.636 19.775 1.00 30.00 1034 CG2 ILE 129 124.925 −0.232 18.597 1.0030.00 1035 CG1 ILE 129 123.324 −0.006 20.508 1.00 30.00 1036 CD1 ILE 129123.604 −1.409 20.973 1.00 30.00 1037 C ILE 129 126.893 1.304 19.9431.00 30.00 1038 O ILE 129 126.793 2.203 19.104 1.00 30.00 1039 N THR 130128.032 0.677 20.207 1.00 30.00 1040 CA THR 130 129.276 1.010 19.5291.00 30.00 1041 CB THR 130 130.382 1.330 20.539 1.00 30.00 1042 OG1 THR130 130.510 0.234 21.457 1.00 30.00 1043 CG2 THR 130 130.049 2.60821.302 1.00 30.00 1044 C THR 130 129.729 −0.161 18.674 1.00 30.00 1045 OTHR 130 129.494 −1.325 19.002 1.00 30.00 1046 N VAL 131 130.391 0.16417.576 1.00 30.00 1047 CA VAL 131 130.872 −0.847 16.659 1.00 30.00 1048CB VAL 131 130.187 −0.676 15.290 1.00 30.00 1049 CG1 VAL 131 130.693−1.707 14.297 1.00 30.00 1050 CG2 VAL 131 128.683 −0.800 15.471 1.0030.00 1051 C VAL 131 132.381 −0.746 16.493 1.00 30.00 1052 O VAL 131132.948 0.346 16.541 1.00 30.00 1053 N ALA 132 133.026 −1.899 16.3331.00 30.00 1054 CA ALA 132 134.464 −1.954 16.108 1.00 30.00 1055 CB ALA132 135.151 −2.783 17.178 1.00 30.00 1056 C ALA 132 134.666 −2.59714.737 1.00 30.00 1057 O ALA 132 134.010 −3.579 14.394 1.00 30.00 1058 NILE 133 135.564 −2.016 13.953 1.00 30.00 1059 CA ILE 133 135.868 −2.52712.623 1.00 30.00 1060 CB ILE 133 135.497 −1.478 11.539 1.00 30.00 1061CG2 ILE 133 136.177 −1.802 10.215 1.00 30.00 1062 CG1 ILE 133 133.982−1.436 11.367 1.00 30.00 1063 CD1 ILE 133 133.536 −0.665 10.150 1.0030.00 1064 C ILE 133 137.363 −2.841 12.553 1.00 30.00 1065 O ILE 133138.183 −1.989 12.872 1.00 30.00 1066 N PHE 134 137.714 −4.067 12.1631.00 30.00 1067 CA PHE 134 139.120 −4.454 12.048 1.00 30.00 1068 CB PHE134 139.410 −5.732 12.833 1.00 30.00 1069 CG PHE 134 139.255 −5.56814.305 1.00 30.00 1070 CD1 PHE 134 137.998 −5.573 14.887 1.00 30.00 1071CD2 PHE 134 140.364 −5.332 15.110 1.00 30.00 1072 CE1 PHE 134 137.846−5.340 16.251 1.00 30.00 1073 CE2 PHE 134 140.221 −5.099 16.475 1.0030.00 1074 CZ PHE 134 138.961 −5.101 17.045 1.00 30.00 1075 C PHE 134139.514 −4.650 10.599 1.00 30.00 1076 O PHE 134 139.167 −5.654 9.9801.00 30.00 1077 N MET 135 140.224 −3.665 10.056 1.00 30.00 1078 CA MET135 140.696 −3.709 8.675 1.00 30.00 1079 CB MET 135 140.889 −2.287 8.1591.00 30.00 1080 CG MET 135 139.627 −1.444 8.213 1.00 30.00 1081 SD MET135 138.439 −1.872 6.926 1.00 30.00 1082 CE MET 135 139.022 −0.825 5.5551.00 30.00 1083 C MET 135 142.027 −4.471 8.650 1.00 30.00 1084 O MET 135142.995 −4.065 9.287 1.00 30.00 1085 N LEU 136 142.079 −5.573 7.919 1.0030.00 1086 CA LEU 136 143.298 −6.368 7.877 1.00 30.00 1087 CB LEU 136143.001 −7.818 8.307 1.00 30.00 1088 CG LEU 136 141.989 −7.959 9.4521.00 30.00 1089 CD1 LEU 136 141.623 −9.421 9.660 1.00 30.00 1090 CD2 LEU136 142.550 −7.330 10.730 1.00 30.00 1091 C LEU 136 143.939 −6.387 6.4991.00 30.00 1092 O LEU 136 143.332 −5.980 5.492 1.00 30.00 1093 N ASP 137145.182 −6.851 6.463 1.00 30.00 1094 CA ASP 137 145.881 −6.977 5.2051.00 30.00 1095 CB ASP 137 147.260 −6.338 5.270 1.00 30.00 1096 CG ASP137 147.820 −6.069 3.894 1.00 30.00 1097 OD1 ASP 137 147.747 −6.9823.036 1.00 30.00 1098 OD2 ASP 137 148.322 −4.947 3.667 1.00 30.00 1099 CASP 137 146.015 −8.473 4.944 1.00 30.00 1100 O ASP 137 146.809 −9.1605.591 1.00 30.00 1101 N THR 138 145.226 −8.977 4.002 1.00 30.00 1102 CATHR 138 145.249 −10.397 3.696 1.00 30.00 1103 CB THR 138 144.009 −10.8302.887 1.00 30.00 1104 OG1 THR 138 143.894 −10.031 1.702 1.00 30.00 1105CG2 THR 138 142.760 −10.683 3.736 1.00 30.00 1106 C THR 138 146.498−10.868 2.980 1.00 30.00 1107 O THR 138 146.954 −11.978 3.227 1.00 30.001108 N VAL 139 147.062 −10.058 2.094 1.00 30.00 1109 CA VAL 139 148.279−10.499 1.429 1.00 30.00 1110 CB VAL 139 148.784 −9.492 0.380 1.00 30.001111 CG1 VAL 139 150.121 −9.965 0.186 1.00 30.00 1112 CG2 VAL 139147.768 −9.377 0.755 1.00 30.00 1113 C VAL 139 149.359 −10.712 2.4821.00 30.00 1114 O VAL 139 150.130 −11.664 2.407 1.00 30.00 1115 N MET140 149.390 −9.840 3.481 1.00 30.00 1116 CA MET 140 150.366 −9.939 4.5611.00 30.00 1117 CB MET 140 150.468 −8.597 5.293 1.00 30.00 1118 CG MET140 151.215 −7.541 4.502 1.00 30.00 1119 SD MET 140 151.164 −5.935 5.2751.00 30.00 1120 CE MET 140 151.439 −6.397 7.016 1.00 30.00 1121 C MET140 150.033 −11.036 5.569 1.00 30.00 1122 O MET 140 150.894 −11.4966.307 1.00 30.00 1123 N LEU 141 148.778 −11.456 5.588 1.00 30.00 1124 CALEU 141 148.316 −12.472 6.524 1.00 30.00 1125 CB LEU 141 146.886−12.10.5 6.954 1.00 30.00 1126 CG LEU 141 146.176 −12.765 8.137 1.0030.00 1127 CD1 LEU 141 146.868 −12.424 9.458 1.00 30.00 1128 CD2 LEU 141144.740 −12.263 8.149 1.00 30.00 1129 C LEU 141 148.368 −13.884 5.9161.00 30.00 1130 O LEU 141 148.443 −14.875 6.642 1.00 30.00 1131 N CYS142 148.344 −13.951 4.583 1.00 30.00 1132 CA CYS 142 148.36 7 −15.2013.810 1.00 30.00 1133 C CYS 142 149.481 −15.288 2.786 1.00 30.00 1134 OCYS 142 150.648 −15.013 3.057 1.00 30.00 1135 CB CYS 142 147.108 −15.3492.979 1.00 30.00 1136 SG CYS 142 145.611 −16.016 3.725 1.00 30.00 1137 NGLY 143 149.038 −15.670 1.583 1.00 30.00 1138 CA GLY 143 149.888 −15.8340.417 1.00 30.00 1139 C GLY 143 149.213 −16.549 −0.763 1.00 30.00 1140 OGLY 143 149.620 −16.338 −1.911 1.00 30.00 1141 N ASN 144 148.193 −17.381−0.503 1.00 30.00 1142 CA ASN 144 147.492 −18.130 −1.569 1.00 30.00 1143CB ASN 144 146.363 −19.013 −0.981 1.00 30.00 1144 CG ASN 144 146.884−20.227 −0.197 1.00 30.00 1145 OD1 ASN 144 147.637 −21.050 −0.718 1.0030.00 1146 ND2 ASN 144 146.464 −20.343 1.057 1.00 30.00 1147 C ASN 144146.910 −17.218 −2.667 1.00 30.00 1148 O ASN 144 146.643 −16.041 −2.4261.00 30.00 1149 N SER 145 146.712 −17.761 −3.869 1.00 30.00 1150 CA SER145 146.177 −16.960 −4.976 1.00 30.00 1151 CB SER 145 147.345 −16.339−5.759 1.00 30.00 1152 OG SER 145 146.899 −15.334 −6.654 1.00 30.00 1153C SER 145 145.246 −17.734 −5.939 1.00 30.00 1154 O SER 145 144.050−17.377 −6.037 1.00 30.00 1155 OXT SER 145 145.714 −18.691 −6.591 1.0030.00 1156 CB VAL 161 155.920 −9.913 5.983 1.00 30.00 1157 CG1 VAL 161156.813 −9.398 7.099 1.00 30.00 1158 CG2 VAL 161 156.760 −10.563 4.8931.00 30.00 1159 C VAL 161 154.015 −10.255 7.593 1.00 30.00 1160 O VAL161 154.030 −9.035 7.741 1.00 30.00 1161 N VAL 161 154.067 −11.506 5.4411.00 30.00 1162 CA VAL 161 154.896 −10.936 6.540 1.00 30.00 1163 N ALA162 153.244 −11.057 8.319 1.00 30.00 1164 CA ALA 162 152.365 −10.5319.352 1.00 30.00 1165 CB ALA 162 151.153 −9.866 8.716 1.00 30.00 1166 CALA 162 151.921 −11.624 10.314 1.00 30.00 1167 O ALA 162 150.743 −11.98810.357 1.00 30.00 1168 N ARG 163 152.872 −12.160 11.074 1.00 30.00 1169CA ARG 163 152.565 −13.191 12.058 1.00 30.00 1170 CB ARG 163 153.774−14.095 12.318 1.00 30.00 1171 CG ARG 163 153.478 −15.235 13.292 1.0030.00 1172 CD ARG 163 154.713 −16.080 13.593 1.00 30.00 1173 NE ARG 163155.217 −16.783 12.416 1.00 30.00 1174 CZ ARG 163 156.271 −17.595 12.4211.00 30.00 1175 NH1 ARG 163 156.940 −17.813 13.544 1.00 30.00 1176 NH2ARG 163 156.658 −18.188 11.301 1.00 30.00 1177 C ARG 163 152.172 −12.47013.340 1.00 30.00 1178 O ARG 163 151.643 −13.078 14.272 1.00 30.00 1179N THR 164 152.449 −11.168 13.383 1.00 30.00 1180 CA THR 164 152.083−10.353 14.533 1.00 30.00 1181 CB THR 164 153.076 −9.194 14.796 1.0030.00 1182 OG1 THR 164 154.409 −9.704 14.885 1.00 30.00 1183 CG2 THR 164152.738 −8.503 16.114 1.00 30.00 1184 C THR 164 150.710 −9.757 14.2341.00 30.00 1185 O THR 164 149.990 −9.379 15.156 1.00 30.00 1186 N GLN165 150.348 −9.664 12.951 1.00 30.00 1187 CA GLN 165 149.034 −9.13312.590 1.00 30.00 1188 CB GLN 165 148.874 −8.972 11.076 1.00 30.00 1189CG GLN 165 147.535 −8.332 10.689 1.00 30.00 1190 CD GLN 165 147.238−8.386 9.193 1.00 30.00 1191 OE1 GLN 165 146.219 −7.867 8.737 1.00 30.001192 NE2 GLN 165 148.124 −9.015 8.425 1.00 30.00 1193 C GLN 165 148.000−10.129 13.094 1.00 30.00 1194 O GLN 165 147.034 −9.758 13.759 1.0030.00 1195 N LEU 166 148.212 −11.403 12.778 1.00 30.00 1196 CA LEU 166147.303 −12.446 13.223 1.00 30.00 1197 CB LEU 166 147.717 −13.796 12.6471.00 30.00 1198 CG LEU 166 146.711 −14.911 12.938 1.00 30.00 1199 CD1LEU 166 145.364 −14.534 12.334 1.00 30.00 1200 CD2 LEU 166 147.206−16.233 12.373 1.00 30.00 1201 C LEU 166 147.317 −12.509 14.751 1.0030.00 1202 O LEU 166 146.312 −12.832 15.385 1.00 30.00 1203 N SER 167148.465 −12.191 15.341 1.00 30.00 1204 CA SER 167 148.603 −12.194 16.7921.00 30.00 1205 CB SER 167 150.081 −12.275 17.172 1.00 30.00 1206 OG SER167 150.227 −12.619 18.537 1.00 30.00 1207 C SER 167 147.973 −10.92117.371 1.00 30.00 1208 O SER 167 147.518 −10.900 18.513 1.00 30.00 1209N TRP 168 147.948 −9.866 16.562 1.00 30.00 1210 CA TRP 168 147.375−8.583 16.951 1.00 30.00 1211 CB TRP 168 147.786 −7.514 15.937 1.0030.00 1212 CG TRP 168 146.993 −6.242 16.000 1.00 30.00 1213 CD2 TRP 168146.012 −5.802 15.056 1.00 30.00 1214 CE2 TRP 168 145.544 −4.545 15.4931.00 30.00 1215 CE3 TRP 168 145.484 −6.348 13.879 1.00 30.00 1216 CD1TRP 168 147.074 −5.264 16.953 1.00 30.00 1217 NE1 TRP 168 146.205 −4.23916.653 1.00 30.00 1218 CZ2 TRP 168 144.571 −3.827 14.795 1.00 30.00 1219CZ3 TRP 168 144.516 −5.634 13.187 1.00 30.00 1220 CH2 TRP 168 144.073−4.385 13.646 1.00 30.00 1221 C TRP 168 145.851 −8.683 17.004 1.00 30.001222 O TRP 168 145.222 −8.259 17.980 1.00 30.00 1223 N LEU 169 145.269−9.246 15.945 1.00 30.00 1224 CA LEU 169 143.823 −9.417 15.846 1.0030.00 1225 CB LEU 169 143.464 −10.058 14.496 1.00 30.00 1226 CG LEU 169141.981 −10.209 14.125 1.00 30.00 1227 CD1 LEU 169 141.283 −8.859 14.1271.00 30.00 1228 CD2 LEU 169 141.877 −10.848 12.759 1.00 30.00 1229 C LEU169 143.297 −10.272 17.006 1.00 30.00 1230 O LEU 169 142.182 −10.05417.491 1.00 30.00 1231 N LYS 170 144.105 −11.238 17.448 1.00 30.00 1232CA LYS 170 143.738 −12.120 18.559 1.00 30.00 1233 CB LYS 170 144.862−13.123 18.840 1.00 30.00 1234 CG LYS 170 144.549 −14.151 19.926 1.0030.00 1235 CD LYS 170 143.705 −15.302 19.388 1.00 30.00 1236 CE LYS 170143.405 −16.352 20.459 1.00 30.00 1237 NZ LYS 170 144.618 −17.031 20.9951.00 30.00 1238 C LYS 170 143.487 −11.288 19.814 1.00 30.00 1239 O LYS170 142.379 −11.284 20.353 1.00 30.00 1240 N LYS 171 144.522 −10.59020.275 1.00 30.00 1241 CA LYS 171 144.408 −9.747 21.460 1.00 30.00 1242CB LYS 171 145.719 −8.998 21.702 1.00 30.00 1243 CG LYS 171 145.625−7.903 22.760 1.00 30.00 1244 CD LYS 171 146.872 −7.036 22.761 1.0030.00 1245 CE LYS 171 147.135 −6.447 21.376 1.00 30.00 1246 NZ LYS 171145.987 −5.650 20.855 1.00 30.00 1247 C LYS 171 143.269 −8.743 21.2901.00 30.00 1248 O LYS 171 142.433 −8.583 22.182 1.00 30.00 1249 N GLN172 143.254 −8.071 20.140 1.00 30.00 1250 CA GLN 172 142.228 −7.08519.811 1.00 30.00 1251 CB GLN 172 142.339 −6.694 18.341 1.00 30.00 1252CG GLN 172 143.457 −5.756 18.012 1.00 30.00 1253 CD GLN 172 143.233−4.391 18.595 1.00 30.00 1254 OE1 GLN 172 143.311 −4.203 19.804 1.0030.00 1255 NE2 GLN 172 142.938 −3.426 17.738 1.00 30.00 1256 C GLN 172140.814 −7.605 20.051 1.00 30.00 1257 O GLN 172 140.061 −7.057 20.8591.00 30.00 1258 N LEU 173 140.473 −8.663 19.313 1.00 30.00 1259 CA LEU173 139.165 −9.310 19.363 1.00 30.00 1260 CB LEU 173 139.100 −10.41518.299 1.00 30.00 1261 CG LEU 173 139.193 −9.971 16.828 1.00 30.00 1262CD1 LEU 173 139.318 −11.183 15.928 1.00 30.00 1263 CD2 LEU 173 137.962−9.154 16.446 1.00 30.00 1264 C LEU 173 138.856 −9.884 20.738 1.00 30.001265 O LEU 173 137.697 −9.930 21.164 1.00 30.00 1266 N ALA 174 139.901−10.319 21.430 1.00 30.00 1267 CA ALA 174 139.744 −10.880 22.760 1.0030.00 1268 CB ALA 174 140.938 −11.757 23.094 1.00 30.00 1269 C ALA 174139.608 −9.765 23.791 1.00 30.00 1270 O ALA 174 139.140 −9.994 24.9051.00 30.00 1271 N ALA 175 140.005 −8.555 23.411 1.00 30.00 1272 CA ALA175 139.942 −7.419 24.320 1.00 30.00 1273 CB ALA 175 141.293 −6.72024.361 1.00 30.00 1274 C ALA 175 138.846 −6.413 23.975 1.00 30.00 1275 OALA 175 138.473 −5.586 24.813 1.00 30.00 1276 N ALA 176 138.340 −6.47822.747 1.00 30.00 1277 CA ALA 176 137.280 −5.571 22.303 1.00 30.00 1278CB ALA 176 136.993 −5.791 20.820 1.00 30.00 1279 C ALA 176 136.008−5.793 23.121 1.00 30.00 1280 O ALA 176 135.644 −6.930 23.424 1.00 30.001281 N LYS 177 135.335 −4.705 23.477 1.00 30.00 1282 CA LYS 177 134.109−4.799 24.261 1.00 30.00 1283 CB LYS 177 134.317 −4.198 25.657 1.0030.00 1284 CG LYS 177 135.482 −4.803 26.441 1.00 30.00 1285 CD LYS 177135.295 −6.299 26.688 1.00 30.00 1286 CE LYS 177 136.544 −6.934 27.3021.00 30.00 1287 NZ LYS 177 136.909 −6.336 28.617 1.00 30.00 1280 C LYS177 132.949 −4.094 23.567 1.00 30.00 1289 O LYS 177 131.869 −3.96524.140 1.00 30.00 1290 N GLU 178 133.170 −3.643 22.334 1.00 30.00 1291CA GLU 178 132.126 −2.956 21.576 1.00 30.00 1292 CB GLU 178 132.611−2.617 20.167 1.00 30.00 1293 CG GLU 178 134.115 −2.568 20.020 1.0030.00 1294 CD GLU 178 134.757 −1.544 20.915 1.00 30.00 1295 OE1 GLU 178134.268 −0.396 20.936 1.00 30.00 1296 OE2 GLU 178 135.752 −1.881 21.5911.00 30.00 1297 C GLU 178 130.905 −3.865 21.473 1.00 30.00 1298 O GLU178 130.967 −5.045 21.819 1.00 30.00 1299 N ASP 179 129.798 −3.31520.989 1.00 30.00 1300 CA ASP 179 128.565 −4.082 20.849 1.00 30.00 1301CB ASP 179 127.364 −3.140 20.867 1.00 30.00 1302 CG ASP 179 127.237−2.405 22.178 1.00 30.00 1303 OD1 ASP 179 126.941 −3.065 23.194 1.0030.00 1304 OD2 ASP 179 127.446 −1.174 22.194 1.00 30.00 1305 C ASP 179128.570 −4.901 19.570 1.00 30.00 1306 O ASP 179 127.938 −5.954 19.4901.00 30.00 1307 N TYR 180 129.273 −4.404 18.562 1.00 30.00 1308 CA TYR180 129.385 −5.112 17.297 1.00 30.00 1309 CB TYR 180 128.662 −4.36916.169 1.00 30.00 1310 CG TYR 180 127.155 −4.304 16.271 1.00 30.00 1311CD1 TYR 180 126.531 −3.507 17.232 1.00 30.00 1312 CE1 TYR 180 125.138−3.406 17.294 1.00 30.00 1313 CD2 TYR 180 126.349 −5.007 15.376 1.0030.00 1314 CE2 TYR 180 124.958 −4.916 15.428 1.00 30.00 1315 CZ TYR 180124.358 −4.112 16.389 1.00 30.00 1316 OH TYR 180 122.984 −4.005 16.4321.00 30.00 1317 C TYR 180 130.865 −5.199 16.949 1.00 30.00 1318 O TYR180 131.665 −4.371 17.386 1.00 30.00 1319 N VAL 181 131.229 −6.21216.173 1.00 30.00 1320 CA VAL 181 132.607 −6.373 15.742 1.00 30.00 1321CB VAL 181 133.387 −7.348 16.637 1.00 30.00 1322 CG1 VAL 181 134.814−7.478 16.122 1.00 30.00 1323 CG2 VAL 181 133.380 −6.855 18.085 1.0030.00 1324 C VAL 181 132.620 −6.901 14.321 1.00 30.00 1325 O VAL 181132.172 −8.011 14.063 1.00 30.00 1326 N LEU 182 133.106 −6.082 13.3981.00 30.00 1327 CA LEU 182 133.197 −6.476 12.001 1.00 30.00 1328 CB LEU182 132.600 −5.410 11.073 1.00 30.00 1329 CG LEU 182 131.226 −4.80111.352 1.00 30.00 1330 CD1 LEU 182 130.806 −3.965 10.147 1.00 30.00 1331CD2 LEU 182 130.221 −5.878 11.634 1.00 30.00 1332 C LEU 182 134.673−6.641 11.668 1.00 30.00 1333 O LEU 182 135.527 −6.020 12.298 1.00 30.001334 N VAL 183 134.958 −7.491 10.687 1.00 30.00 1335 CA VAL 183 136.315−7.747 10.233 1.00 30.00 1336 CB VAL 183 136.854 −9.103 10.758 1.0030.00 1337 CG1 VAL 183 138.276 −9.327 10.273 1.00 30.00 1338 CG2 VAL 183136.805 −9.135 12.278 1.00 30.00 1339 C VAL 183 136.261 −7.781 8.7141.00 30.00 1340 O VAL 183 135.375 −0.391 8.128 1.00 30.00 1341 N ALA 184137.208 −7.102 8.085 1.00 30.00 1342 CA ALA 104 137.292 −7.055 6.6301.00 30.00 1343 CB ALA 184 136.799 −5.702 6.121 1.00 30.00 1344 C ALA184 138.741 −7.296 6.186 1.00 30.00 1345 O ALA 184 139.686 −7.085 6.9481.00 30.00 1346 N GLY 185 138.891 −7.753 4.951 1.00 30.00 1347 CA GLY185 140.199 −8.032 4.375 1.00 30.00 1348 C GLY 185 139.934 −8.149 2.8861.00 30.00 1349 O GLY 185 138.784 −7.988 2.468 1.00 30.00 1350 N HIS 186140.938 −8.437 2.070 1.00 30.00 1351 CA HIS 186 140.674 −8.520 0.6391.00 30.00 1352 CB HIS 186 141.847 −7.970 −0.173 1.00 30.00 1353 CG HIS186 141.600 −7.972 −1.651 1.00 30.00 1354 CD2 HIS 186 142.241 −8.610−2.666 1.00 30.00 1355 ND1 HIS 186 140.569 −7.263 −2.236 1.00 30.00 1356CE1 HIS 186 140.586 −7.464 −3.545 1.00 30.00 1357 C HIS 186 140.358−9.915 0.146 1.00 30.00 1358 O HIS 186 139.502 −10.093 −0.719 1.00 30.001359 NE2 HIS 186 141.590 −8.278 −3.830 1.00 30.00 1360 N TYR 187 141.057−10.904 0.685 1.00 30.00 1361 CA TYR 187 140.844 −12.288 0.279 1.0030.00 1362 CB TYR 187 142.073 −13.136 0.621 1.00 30.00 1363 CG TYR 187143.290 −12.814 −0.215 1.00 30.00 1364 CD1 TYR 187 144.579 −13.007 0.2931.00 30.00 1365 CE1 TYR 187 145.703 −12.715 −0.470 1.00 30.00 1366 CD2TYR 187 143.157 −12.321 −1.517 1.00 30.00 1367 CE2 TYR 187 144.271−12.029 −2.289 1.00 30.00 1368 CZ TYR 187 145.541 −12.228 −1.760 1.0030.00 1369 OH TYR 187 146.642 −11.933 −2.521 1.00 30.00 1370 C TYR 187139.622 −12.850 0.978 1.00 30.00 1371 O TYR 187 139.325 −12.476 2.1081.00 30.00 1372 N PRO 188 138.891 −13.758 0.307 1.00 30.00 1373 CD PRO188 139.083 −14.166 −1.099 1.00 30.00 1374 CA PRO 188 137.684 −14.3850.868 1.00 30.00 1375 CB PRO 188 136.974 −14.968 −0.363 1.00 30.00 1376CG PRO 188 137.672 −14.331 −1.565 1.00 30.00 1377 C PRO 188 138.033−15.522 1.827 1.00 30.00 1378 O PRO 188 139.082 −16.152 1.695 1.00 30.001379 N ILE 189 137.174 −15.772 2.803 1.00 30.00 1380 CA ILE 189 137.379−16.928 3.665 1.00 30.00 1381 CB ILE 189 136.758 −16.757 5.050 1.0030.00 1382 CG2 ILE 189 136.619 −18.122 5.710 1.00 30.00 1383 CG1 ILE 189137.620 −15.823 5.897 1.00 30.00 1384 CD1 ILE 189 137.027 −15.523 7.2751.00 30.00 1385 C ILE 189 136.534 −17.933 2.871 1.00 30.00 1386 O ILE189 137.039 −18.915 2.337 1.00 30.00 1387 N TRP 190 135.240 −17.6322.779 1.00 30.00 1388 CA TRP 190 134.279 −18.429 2.018 1.00 30.00 1389CB TRP 190 133.025 −18.716 2.876 1.00 30.00 1390 CG TRP 190 133.259−19.666 4.035 1.00 30.00 1391 CD2 TRP 190 133.989 −20.907 4.006 1.0030.00 1392 CE2 TRP 190 134.018 −21.412 5.336 1.00 30.00 1393 CE3 TRP 190134.628 −21.636 2.989 1.00 30.00 1394 CD1 TRP 190 132.376 −19.483 5.3421.00 30.00 1395 NE1 TRP 190 133.333 −20.526 6.128 1.00 30.00 1396 CZ2TRP 190 134.661 −22.613 5.673 1.00 30.00 1397 CZ3 TRP 190 135.275−22.830 3.327 1.00 30.00 1398 CH2 TRP 190 135.284 −23.304 4.660 1.0030.00 1399 C TRP 190 133.880 −17.666 0.727 1.00 30.00 1400 O TRP 190133.674 −16.458 0.744 1.00 30.00 1401 N SER 191 133.815 −18.379 −0.3921.00 30.00 1402 CA SER 191 133.412 −17.811 −1.682 1.00 30.00 1403 CB SER191 134.385 −16.761 −2.197 1.00 30.00 1404 OG SER 191 134.220 −16.645−3.612 1.00 30.00 1405 C SER 191 133.360 −18.904 −2.717 1.00 30.00 1406O SER 191 134.293 −19.688 −2.834 1.00 30.00 1407 N ILE 192 132.283−18.936 −3.483 1.00 30.00 1408 CA ILE 192 132.094 −19.952 −4.507 1.0030.00 1409 CB ILE 192 130.598 −20.248 −4.675 1.00 30.00 1410 CG2 ILE 192129.940 −20.336 −3.302 1.00 30.00 1411 CG1 ILE 192 129.929 −19.115−5.469 1.00 30.00 1412 CD1 ILE 192 128.493 −19.401 −5.871 1.00 30.001413 C ILE 192 132.647 −19.536 −5.874 1.00 30.00 1414 O ILE 192 132.755−20.366 −6.772 1.00 30.00 1415 N ALA 193 133.001 −18.258 −6.017 1.0030.00 1416 CA ALA 193 133.485 −17.719 −7.283 1.00 30.00 1417 CB ALA 193133.495 −16.214 −7.205 1.00 30.00 1418 C ALA 193 134.840 −18.237 −7.7911.00 30.00 1419 O ALA 193 135.352 −19.245 −7.306 1.00 30.00 1420 N GLU194 135.406 −17.539 −8.777 1.00 30.00 1421 CA GLU 194 136.677 −17.917−9.398 1.00 30.00 1422 CB GLU 194 137.146 −16.826 −10.369 1.00 30.001423 CG GLU 194 137.486 −15.481 −9.730 1.00 30.00 1424 CD GLU 194136.280 −14.560 −9.591 1.00 30.00 1425 OE1 GLU 194 136.471 −13.373−9.250 1.00 30.00 1426 OE2 GLU 194 135.142 −15.020 −9.825 1.00 30.001427 C GLU 194 137.827 −18.259 −8.462 1.00 30.00 1428 O GLU 194 138.441−19.317 −8.589 1.00 30.00 1429 N HIS 195 138.145 −17.369 −7.534 1.0030.00 1430 CA HIS 195 139.244 −17.643 −6.612 1.00 30.00 1431 CB HIS 195139.721 −16.346 −5.935 1.00 30.00 1432 CG HIS 195 140.440 −15.415 −6.8621.00 30.00 1433 CD2 HIS 195 140.164 −14.146 −7.247 1.00 30.00 1434 ND1HIS 195 141.578 −15.782 −7.547 1.00 30.00 1435 CE1 HIS 195 141.970−14.782 −8.316 1.00 30.00 1436 NE2 HIS 195 141.128 −13.778 −8.151 1.0030.00 1437 C HIS 195 138.846 −18.669 −5.558 1.00 30.00 1438 O HIS 195139.588 −19.619 −5.288 1.00 30.00 1439 N GLY 196 137.679 −18.472 −4.9581.00 30.00 1440 CA GLY 196 137.213 −19.404 −3.952 1.00 30.00 1441 C GLY196 137.798 −19.203 −2.568 1.00 30.00 1442 O GLY 196 138.581 −18.275−2.337 1.00 30.00 1443 N PRO 197 137.430 −20.076 −1.615 1.00 30.00 1444CD PRO 197 136.673 −21.331 −1.793 1.00 30.00 1445 CA PRO 197 137.937−19.972 −0.246 1.00 30.00 1446 CB PRO 197 137.502 −21.293 0.393 1.0030.00 1447 CG PRO 197 136.282 −21.670 −0.373 1.00 30.00 1448 C PRO 197139.457 −19.847 −0.273 1.00 30.00 1449 O PRO 197 140.126 −20.400 −1.1591.00 30.00 1450 N THR 198 140.011 −19.119 0.684 1.00 30.00 1451 CA THR198 141.450 −18.996 0.729 1.00 30.00 1452 CB THR 198 141.880 −17.5100.871 1.00 30.00 1453 OG1 THR 198 141.603 −17.047 2.197 1.00 30.00 1454CG2 THR 198 141.103 −16.645 −0.151 1.00 30.00 1455 C THR 198 141.863−19.847 1.921 1.00 30.00 1456 O THR 198 141.487 −19.567 3.061 1.00 30.001457 N ARG 199 142.612 −20.905 1.629 1.00 30.00 1458 CA ARG 199 143.061−21.855 2.634 1.00 30.00 1459 CB ARG 199 144.091 −22.796 1.989 1.0030.00 1460 CG ARG 199 143.454 −23.592 0.837 1.00 30.00 1461 CD ARG 199144.378 −24.609 0.167 1.00 30.00 1462 NE ARG 199 143.668 −25.471 −0.7951.00 30.00 1463 CZ ARG 199 143.106 −25.057 −1.932 1.00 30.00 1464 NH1ARG 199 143.155 −23.775 −2.282 1.00 30.00 1465 NH2 ARG 199 142.502−25.930 −2.734 1.00 30.00 1466 C ARG 199 143.569 −21.281 3.962 1.0030.00 1467 O ARG 199 143.074 −21.644 5.029 1.00 30.00 1468 N CYS 200144.542 −20.382 3.892 1.00 30.00 1469 CA CYS 200 145.124 −19.760 5.0801.00 30.00 1470 C CYS 200 144.099 −18.998 5.939 1.00 30.00 1471 O CYS200 144.185 −19.010 7.169 1.00 30.00 1472 CB CYS 200 146.241 −18.8304.623 1.00 30.00 1473 SG CYS 200 145.656 −17.960 3.146 1.00 30.00 1474 NLEU 201 143.133 −18.334 5.304 1.00 30.00 1475 CA LEU 201 142.121 −17.5936.055 1.00 30.00 1476 CB LEU 201 141.377 −16.611 5.142 1.00 30.00 1477CG LEU 201 142.167 −15.346 4.776 1.00 30.00 1478 CD1 LEU 201 141.322−14.450 3.894 1.00 30.00 1479 CD2 LEU 201 142.566 −14.605 6.038 1.0030.00 1480 C LEU 201 141.153 −18.564 6.718 1.00 30.00 1481 O LEU 201140.834 −18.424 7.900 1.00 30.00 1482 N VAL 202 140.703 −19.556 5.9561.00 30.00 1483 CA VAL 202 139.794 −20.572 6.479 1.00 30.00 1484 CB VAL202 139.492 −21.670 5.419 1.00 30.00 1485 CG1 VAL 202 138.735 −22.8256.062 1.00 30.00 1486 CG2 VAL 202 138.672 −21.088 4.273 1.00 30.00 1487C VAL 202 140.426 −21.253 7.693 1.00 30.00 1488 O VAL 202 139.730−21.675 8.616 1.00 30.00 1489 N LYS 203 141.751 −21.347 7.689 1.00 30.001490 CA LYS 203 142.473 −21.995 8.777 1.00 30.00 1491 CB LYS 203 143.752−22.667 8.244 1.00 30.00 1492 CG LYS 203 144.508 −23.477 9.302 1.0030.00 1493 CD LYS 203 145.749 −24.188 8.759 1.00 30.00 1494 CE LYS 203146.871 −23.221 8.415 1.00 30.00 1495 NZ LYS 203 148.116 −23.933 8.0011.00 30.00 1496 C LYS 203 142.847 −21.082 9.934 1.00 30.00 1497 O LYS203 142.662 −21.451 11.090 1.00 30.00 1498 N ASN 204 143.364 −19.8969.619 1.00 30.00 1499 CA ASN 204 143.814 −18.948 10.641 1.00 30.00 1500CB ASN 204 145.122 −18.284 10.187 1.00 30.00 1501 CG ASN 204 146.280−19.264 10.100 1.00 30.00 1502 OD1 ASN 204 146.333 −20.111 9.210 1.0030.00 1503 ND2 ASN 204 147.215 −19.152 11.032 1.00 30.00 1504 C ASN 204142.836 −17.859 11.089 1.00 30.00 1505 O ASN 204 142.852 −17.450 12.2611.00 30.00 1506 N LEU 205 141.993 −17.380 10.177 1.00 30.00 1507 CA LEU205 141.039 −16.341 10.539 1.00 30.00 1508 CB LEU 205 140.860 −15.3699.369 1.00 30.00 1509 CG LEU 205 140.120 −14.057 9.684 1.00 30.00 1510CD1 LEU 205 140.730 −13.400 10.925 1.00 30.00 1511 CD2 LEU 205 140.189−13.117 8.482 1.00 30.00 1512 C LEU 205 139.671 −16.890 10.988 1.0030.00 1513 O LEU 205 139.238 −16.639 12.121 1.00 30.00 1514 N ARG 206139.010 −17.647 10.109 1.00 30.00 1515 CA ARG 206 137.685 −18.219 10.3791.00 30.00 1516 CB ARG 206 137.416 −19.397 9.420 1.00 30.00 1517 CG ARG206 135.967 −19.913 9.378 1.00 30.00 1518 CD ARG 206 135.641 −20.90710.501 1.00 30.00 1519 NE ARG 206 134.428 −20.532 11.244 1.00 30.00 1520CZ ARG 206 133.168 −20.750 10.854 1.00 30.00 1521 NH1 ARG 206 132.896−21.367 9.700 1.00 30.00 1522 NH2 ARG 206 132.170 −20.327 11.630 1.0030.00 1523 C ARG 206 137.472 −18.658 11.827 1.00 30.00 1524 O ARG 206136.425 −18.392 12.418 1.00 30.00 1525 N PRO 207 138.460 −19.338 12.4201.00 30.00 1526 CD PRO 207 139.671 −19.949 11.840 1.00 30.00 1527 CA PRO207 138.282 −19.771 13.805 1.00 30.00 1528 CB PRO 207 139.536 −20.61214.064 1.00 30.00 1529 CG PRO 207 139.865 −21.163 12.720 1.00 30.00 1530C PRO 207 138.152 −18.614 14.796 1.00 30.00 1531 O PRO 207 137.546−18.773 15.856 1.00 30.00 1532 N LEU 208 138.713 −17.455 14.443 1.0030.00 1533 CA LEU 208 138.699 −16.277 15.314 1.00 30.00 1534 CB LEU 208139.862 −15.352 14.959 1.00 30.00 1535 CG LEU 208 141.283 −15.825 15.2701.00 30.00 1536 CD1 LEU 208 142.285 −14.752 14.868 1.00 30.00 1537 CD2LEU 208 141.402 −16.125 16.753 1.00 30.00 1538 C LEU 208 137.416 −15.45415.330 1.00 30.00 1539 O LEU 208 137.194 −14.667 16.255 1.00 30.00 1540N LEU 209 136.580 −15.630 14.309 1.00 30.00 1541 CA LEU 209 135.328−14.888 14.205 1.00 30.00 1542 CB LEU 209 134.814 −14.955 12.772 1.0030.00 1543 CG LEU 209 135.881 −14.580 11.745 1.00 30.00 1544 CD1 LEU 209135.324 −14.715 10.346 1.00 30.00 1545 CD2 LEU 209 136.352 −13.17111.992 1.00 30.00 1546 C LEU 209 134.277 −15.434 15.164 1.00 30.00 1547O LEU 209 133.806 −14.725 16.053 1.00 30.00 1548 N ALA 210 133.912−16.698 14.987 1.00 30.00 1549 CA ALA 210 132.923 −17.319 15.860 1.0030.00 1550 CB ALA 210 132.571 −18.711 15.344 1.00 30.00 1551 C ALA 210133.480 −17.409 17.281 1.00 30.00 1552 O ALA 210 132.732 −17.387 18.2571.00 30.00 1553 N ALA 211 134.804 −17.503 17.381 1.00 30.00 1554 CA ALA211 135.493 −17.608 18.665 1.00 30.00 1555 CB ALA 211 136.991 −17.71018.437 1.00 30.00 1556 C ALA 211 135.198 −16.444 19.595 1.00 30.00 1557O ALA 211 134.838 −16.644 20.754 1.00 30.00 1558 N TYR 212 135.366−15.227 19.084 1.00 30.00 1559 CA TYR 212 135.127 −14.029 19.878 1.0030.00 1560 CB TYR 212 136.335 −13.093 19.807 1.00 30.00 1561 CG TYR 212137.606 −13.734 20.315 1.00 30.00 1562 CD1 TYR 212 138.496 −14.35319.434 1.00 30.00 1563 CE1 TYR 212 139.648 −14.980 19.902 1.00 30.001564 CD2 TYR 212 137.902 −13.758 21.678 1.00 30.00 1565 CE2 TYR 212139.051 −14.386 22.156 1.00 30.00 1566 CZ TYR 212 139.917 −14.993 21.2621.00 30.00 1567 OH TYR 212 141.044 −15.624 21.727 1.00 30.00 1568 C TYR212 133.868 −13.290 19.462 1.00 30.00 1569 O TYR 212 133.666 −12.13419.827 1.00 30.00 1570 N GLY 213 133.028 −13.966 18.688 1.00 30.00 1571CA GLY 213 131.764 −13.387 18.268 1.00 30.00 1572 C GLY 213 131.750−12.226 17.295 1.00 30.00 1573 O GLY 213 131.070 −11.229 17.541 1.0030.00 1574 N VAL 214 132.495 −12.350 16.198 1.00 30.00 1575 CA VAL 214132.530 −11.323 15.161 1.00 30.00 1576 CB VAL 214 133.662 −11.573 14.1451.00 30.00 1577 CG1 VAL 214 133.656 −10.489 13.076 1.00 30.00 1578 CG2VAL 214 135.001 −11.612 14.858 1.00 30.00 1579 C VAL 214 131.196 −11.43414.432 1.00 30.00 1580 O VAL 214 130.750 −12.526 14.091 1.00 30.00 1581N THR 215 130.548 −10.312 14.193 1.00 30.00 1582 CA THR 215 129.266−10.367 13.529 1.00 30.00 1583 CB THR 215 128.584 −8.983 13.585 1.0030.00 1584 OG1 THR 215 128.647 −8.493 14.931 1.00 30.00 1585 CG2 THR 215127.120 −9.075 13.148 1.00 30.00 1586 C THR 215 129.405 −10.845 12.0811.00 30.00 1587 O THR 215 128.603 −11.658 11.598 1.00 30.00 1588 N ALA216 130.434 −10.366 11.390 1.00 30.00 1589 CA ALA 216 130.596 −10.75610.004 1.00 30.00 1590 CB ALA 216 129.511 −10.108 9.165 1.00 30.00 1591C ALA 216 131.948 −10.410 9.422 1.00 30.00 1592 O ALA 216 132.696 −9.6029.972 1.00 30.00 1593 N TYR 217 132.239 −11.032 8.284 1.00 30.00 1594 CATYR 217 133.481 −10.805 7.585 1.00 30.00 1595 CB TYR 217 134.325 −12.0947.550 1.00 30.00 1596 CG TYR 217 135.644 −11.931 6.809 1.00 30.00 1597CD1 TYR 217 135.861 −12.543 5.568 1.00 30.00 1598 CE1 TYR 217 137.069−12.359 4.874 1.00 30.00 1599 CD2 TYR 217 136.670 −11.128 7.337 1.0030.00 1600 CE2 TYR 217 137.873 −10.939 6.651 1.00 30.00 1601 CZ TYR 217138.065 −11.555 5.427 1.00 30.00 1602 OH TYR 217 139.262 −11.370 4.7751.00 30.00 1603 C TYR 217 133.212 −10.315 6.167 1.00 30.00 1604 O TYR217 132.676 −11.048 5.321 1.00 30.00 1605 N LEU 218 133.580 −9.061 5.9241.00 30.00 1606 CA LEU 218 133.431 −8.443 4.605 1.00 30.00 1607 CB LEU218 133.120 −6.949 4.743 1.00 30.00 1608 CG LEU 218 131.761 −6.597 5.3461.00 30.00 1609 CD1 LEU 218 131.877 −6.603 6.863 1.00 30.00 1610 CD2 LEU218 131.307 −5.229 4.841 1.00 30.00 1611 C LEU 218 134.726 −8.628 3.8011.00 30.00 1612 O LEU 218 135.828 −8.633 4.368 1.00 30.00 1613 N CYS 219134.597 −8.772 2.484 1.00 30.00 1614 CA CYS 219 135.773 −8.964 1.6471.00 30.00 1615 CB CYS 219 136.290 −10.381 1.809 1.00 30.00 1616 SG CYS219 135.239 −11.548 0.914 1.00 30.00 1617 C CYS 219 135.408 −8.778 0.1961.00 30.00 1618 O CYS 219 134.240 −8.640 −0.132 1.00 30.00 1619 N GLY220 136.419 −8.803 −0.667 1.00 30.00 1620 CA GLY 220 136.202 −8.677−2.099 1.00 30.00 1621 C GLY 220 137.001 −9.764 −2.785 1.00 30.00 1622 OGLY 220 136.866 −10.942 −2.463 1.00 30.00 1623 N HIS 221 137.834 −9.365−3.734 1.00 30.00 1624 CA HIS 221 138.707 −10.281 −4.466 1.00 30.00 1625CB HIS 221 139.428 −11.218 −3.496 1.00 30.00 1626 CG HIS 221 140.569−11.953 −4.123 1.00 30.00 1627 CD2 HIS 221 140.852 −13.274 −4.192 1.0030.00 1628 CE1 HIS 221 142.405 −12.203 −5.314 1.00 30.00 1629 NE2 HIS221 141.996 −13.403 −4.941 1.00 30.00 1630 C HIS 221 138.018 −11.076−5.570 1.00 30.00 1631 O HIS 221 138.525 −11.148 −6.690 1.00 30.00 1632ND1 HIS 221 141.561 −11.309 −4.831 1.00 30.00 1633 N ASP 222 136.889−11.700 −5.258 1.00 30.00 1634 CA ASP 222 136.131 −12.415 −6.289 1.0030.00 1635 CB ASP 222 135.312 −13.577 −5.697 1.00 30.00 1636 CG ASP 222136.028 −14.930 −5.809 1.00 30.00 1637 OD1 ASP 222 136.495 −15.283−6.913 1.00 30.00 1638 OD2 ASP 222 136.106 −15.652 −4.795 1.00 30.001639 C ASP 222 135.200 −11.354 −6.884 1.00 30.00 1640 O ASP 222 134.365−10.789 −6.185 1.00 30.00 1641 N HIS 223 135.371 −11.072 −8.169 1.0030.00 1642 CA HIS 223 134.584 −10.057 −8.854 1.00 30.00 1643 CB HIS 223135.226 −9.784 −10.209 1.00 30.00 1644 CG HIS 223 136.643 −9.312 −10.1051.00 30.00 1645 CD2 HIS 223 137.364 −8.906 −9.030 1.00 30.00 1646 ND1HIS 223 137.479 −9.192 −11.195 1.00 30.00 1647 CE1 HIS 223 138.650−8.733 −10.798 1.00 30.00 1643 C HIS 223 133.094 −10.367 −8.998 1.0030.00 1649 O HIS 223 132.600 −10.700 −10.077 1.00 30.00 1650 NE2 HIS 223138.607 −8.551 −9.491 1.00 30.00 1651 N ASN 224 132.382 −10.232 −7.8871.00 30.00 1652 CA ASN 224 130.962 −10.495 −7.841 1.00 30.00 1653 CB ASN224 130.689 −11.963 −8.178 1.00 30.00 1654 CG ASN 224 131.687 −12.900−7.546 1.00 30.00 1655 OD1 ASN 224 131.679 −13.127 −6.328 1.00 30.001656 ND2 ASN 224 132.576 −13.446 −8.376 1.00 30.00 1657 C ASN 224130.363 −10.145 −6.487 1.00 30.00 1658 O ASN 224 131.045 −9.630 −5.5891.00 30.00 1659 N LEU 225 129.071 −10.424 −6.360 1.00 30.00 1660 CA LEU225 128.332 −10.136 −5.147 1.00 30.00 1661 CB LEU 225 127.138 −9.236−5.462 1.00 30.00 1662 CG LEU 225 127.419 −7.867 −6.069 1.00 30.00 1663CD1 LEU 225 126.093 −7.224 −6.506 1.00 30.00 1664 CD2 LEU 225 128.169−7.004 −5.041 1.00 30.00 1665 C LEU 225 127.793 −11.390 −4.494 1.0030.00 1666 O LEU 225 127.072 −12.155 −5.141 1.00 30.00 1667 N GLN 226128.130 −11.604 −3.222 1.00 30.00 1668 CA GLN 226 127.587 −12.749 −2.5041.00 30.00 1669 CB GLN 226 128.306 −14.054 −2.896 1.00 30.00 1670 CG GLN226 129.816 −14.052 −2.816 1.00 30.00 1671 CD GLN 226 130.436 −15.353−3.340 1.00 30.00 1672 OE1 GLN 226 130.160 −16.436 −2.819 1.00 30.001673 NE2 GLN 226 131.277 −15.243 −4.376 1.00 30.00 1674 C GLN 226127.532 −12.612 −0.993 1.00 30.00 1675 O GLN 226 128.327 −11.911 −0.3741.00 30.00 1676 N TYR 227 126.542 −13.270 −0.416 1.00 30.00 1677 CA TYR227 126.356 −13.289 1.024 1.00 30.00 1678 CB TYR 227 125.038 −12.6431.444 1.00 30.00 1679 CG TYR 227 124.859 −12.683 2.938 1.00 30.00 1680CD1 TYR 227 125.603 −11.837 3.758 1.00 30.00 1681 CE1 TYR 227 125.540−11.931 5.144 1.00 30.00 1682 CD2 TYR 227 124.025 −13.629 3.541 1.0030.00 1683 CE2 TYR 227 123.951 −13.739 4.931 1.00 30.00 1684 CZ TYR 227124.717 −12.883 5.728 1.00 30.00 1685 OH TYR 227 124.692 −12.978 7.1061.00 30.00 1686 C TYR 227 126.317 −14.748 1.436 1.00 30.00 1687 O TYR227 125.536 −15.536 0.889 1.00 30.00 1688 N LEU 228 127.168 −15.1022.391 1.00 30.00 1689 CA LEU 228 127.233 −16.463 2.898 1.00 30.00 1690CB LEU 228 128.627 −17.073 2.665 1.00 30.00 1691 CG LEU 228 129.261−17.170 1.268 1.00 30.00 1692 CD1 LEU 228 128.490 −18.145 0.408 1.0030.00 1693 CD2 LEU 228 129.304 −15.804 0.616 1.00 30.00 1694 C LEU 228126.992 −16.343 4.393 1.00 30.00 1695 O LEU 228 127.055 −15.239 4.9431.00 30.00 1696 N GLN 229 126.713 −17.468 5.045 1.00 30.00 1697 CA GLN229 126.516 −17.474 6.484 1.00 30.00 1698 CB GLN 229 125.139 −16.9266.840 1.00 30.00 1699 CG GLN 229 124.959 −16.636 8.325 1.00 30.00 1700CD GLN 229 123.623 −15.976 8.627 1.00 30.00 1701 OE1 GLN 229 123.123−16.036 9.754 1.00 30.00 1702 NE2 GLN 229 123.045 −15.330 7.621 1.0030.00 1703 C GLN 229 126.701 −18.865 7.032 1.00 30.00 1704 O GLN 229126.024 −19.824 6.610 1.00 30.00 1705 N ASP 230 127.645 −19.027 7.9601.00 30.00 1706 CA ASP 230 127.945 −20.317 8.566 1.00 30.00 1707 CB ASP230 129.392 −20.355 9.091 1.00 30.00 1708 CG ASP 230 129.639 −19.39710.254 1.00 30.00 1709 OD1 ASP 230 128.816 −19.334 11.193 1.00 30.001710 OD2 ASP 230 130.685 −18.718 10.236 1.00 30.00 1711 C ASP 230126.977 −20.656 9.688 1.00 30.00 1712 O ASP 230 126.266 −19.791 10.1921.00 30.00 1713 N GLU 231 126.972 −21.923 10.084 1.00 30.00 1714 CA GLU231 126.084 −22.414 11.131 1.00 30.00 1715 CB GLU 231 126.209 −23.93811.261 1.00 30.00 1716 CG GLU 231 127.331 −24.426 12.192 1.00 30.00 1717CD GLU 231 128.726 −24.414 11.563 1.00 30.00 1718 OE1 GLU 231 129.687−24.792 12.277 1.00 30.00 1719 OE2 GLU 231 128.859 −24.043 10.372 1.0030.00 1720 C GLU 231 126.336 −21.772 12.490 1.00 30.00 1721 O GLU 231125.765 −22.191 13.494 1.00 30.00 1722 N ASN 232 127.190 −20.763 12.5411.00 30.00 1723 CA ASN 232 127.459 −20.101 13.813 1.00 30.00 1724 CB ASN232 128.976 −19.952 14.061 1.00 30.00 1725 CG ASN 232 129.618 −21.21314.667 1.00 30.00 1726 OD1 ASN 232 129.110 −21.783 15.635 1.00 30.001727 ND2 ASN 232 130.757 −21.629 14.106 1.00 30.00 1728 C ASN 232126.801 −18.726 13.826 1.00 30.00 1729 O ASN 232 126.781 −18.049 14.8591.00 30.00 1730 N GLY 233 126.259 −18.321 12.680 1.00 30.00 1731 CA GLY233 125.627 −17.015 12.587 1.00 30.00 1732 C GLY 233 126.562 −15.91612.096 1.00 30.00 1733 O GLY 233 126.131 −14.797 11.827 1.00 30.00 1734N VAL 234 127.853 −16.224 12.012 1.00 30.00 1735 CA VAL 234 128.819−15.269 11.513 1.00 30.00 1736 CB VAL 234 130.246 −15.830 11.594 1.0030.00 1737 CG1 VAL 234 131.229 −14.852 10.967 1.00 30.00 1738 CG2 VAL234 130.610 −16.109 13.046 1.00 30.00 1739 C VAL 234 128.415 −15.13610.059 1.00 30.00 1740 O VAL 234 128.177 −16.144 9.402 1.00 30.00 1741 NGLY 235 128.310 −13.905 9.565 1.00 30.00 1742 CA GLY 235 127.917 −13.7038.183 1.00 30.00 1743 C GLY 235 129.123 −13.525 7.289 1.00 30.00 1744 OGLY 235 130.205 −13.208 7.768 1.00 30.00 1745 N TYR 236 128.950 −13.7425.991 1.00 30.00 1746 CA TYR 236 130.054 −13.565 5.060 1.00 30.00 1747CB TYR 236 130.583 −14.922 4.593 1.00 30.00 1748 CG TYR 236 131.222−15.674 5.729 1.00 30.00 1749 CD1 TYR 236 130.446 −16.427 6.616 1.0030.00 1750 CE1 TYR 236 131.017 −17.035 7.741 1.00 30.00 1751 CD2 TYR 236132.586 −15.551 5.989 1.00 30.00 1752 CE2 TYR 236 133.166 −16.154 7.1101.00 30.00 1753 CZ TYR 236 132.375 −16.891 7.982 1.00 30.00 1754 OH TYR236 132.935 −17.463 9.096 1.00 30.00 1755 C TYR 236 129.642 −12.7033.885 1.00 30.00 1756 O TYR 236 129.013 −13.170 2.941 1.00 30.00 1757 NVAL 237 130.020 −11.431 3.973 1.00 30.00 1758 CA VAL 237 129.707 −10.4142.972 1.00 30.00 1759 CB VAL 237 129.462 −9.038 3.652 1.00 30.00 1760CG1 VAL 237 129.007 −8.020 2.629 1.00 30.00 1761 CG2 VAL 237 128.449−9.184 4.787 1.00 30.00 1762 C VAL 237 130.835 −10.241 1.965 1.00 30.001763 O VAL 237 131.872 −9.648 2.287 1.00 30.00 1764 N LEU 238 130.633−10.762 0.754 1.00 30.00 1765 CA LEU 238 131.630 −10.646 −0.316 1.0030.00 1766 CB LEU 238 131.894 −12.014 −0.955 1.00 30.00 1767 CG LEU 238133.043 −12.164 −1.967 1.00 30.00 1768 CD1 LEU 238 133.514 −13.624−1.980 1.00 30.00 1769 CD2 LEU 238 132.598 −11.710 −3.360 1.00 30.001770 C LEU 238 131.076 −9.675 −1.348 1.00 30.00 1771 O LEU 238 130.206−10.025 −2.149 1.00 30.00 1772 N SER 239 131.589 −8.452 −1.325 1.0030.00 1773 CA SER 239 131.107 −7.421 −2.224 1.00 30.00 1774 CB SER 239130.406 −6.335 −1.419 1.00 30.00 1775 OG SER 239 131.275 −5.824 −0.4341.00 30.00 1776 C SER 239 132.130 −6.754 −3.111 1.00 30.00 1777 O SER239 132.152 −5.527 −3.196 1.00 30.00 1778 N GLY 240 132.950 −7.537−3.795 1.00 30.00 1779 CA GLY 240 133.948 −6.934 −4.654 1.00 30.00 1780C GLY 240 133.577 −6.882 −6.128 1.00 30.00 1781 O GLY 240 134.156 −7.592−6.947 1.00 30.00 1782 N ALA 241 132.615 −6.047 −6.490 1.00 30.00 1783CA ALA 241 132.259 −5.965 −7.894 1.00 30.00 1784 CB ALA 241 131.018−6.782 −8.171 1.00 30.00 1785 C ALA 241 132.047 −4.532 −8.330 1.00 30.001786 O ALA 241 130.999 −4.195 −8.880 1.00 30.00 1787 N GLY 242 133.052−3.691 −8.097 1.00 30.00 1788 CA GLY 242 132.946 −2.294 −8.479 1.0030.00 1789 C GLY 242 133.584 −1.956 −9.816 1.00 30.00 1790 O GLY 242133.362 −0.877 −10.355 1.00 30.00 1791 N ASN 243 134.355 −2.884 −10.3681.00 30.00 1792 CA ASN 243 135.047 −2.649 −11.629 1.00 30.00 1793 CB ASN243 136.534 −2.396 −11.338 1.00 30.00 1794 CG ASN 243 137.336 −2.086−12.578 1.00 30.00 1795 OD1 ASN 243 136.956 −1.239 −13.372 1.00 30.001796 ND2 ASN 243 138.464 −2.761 −12.741 1.00 30.00 1797 C ASN 243134.888 −3.828 −12.576 1.00 30.00 1798 O ASN 243 134.721 −3.649 −13.7881.00 30.00 1799 N PHE 244 134.933 −5.031 −12.007 1.00 30.00 1800 CA PHE244 134.812 −6.265 −12.780 1.00 30.00 1801 CB PHE 244 136.091 −7.094−12.653 1.00 30.00 1802 CG PHE 244 137.272 −6.515 −13.376 1.00 30.001803 CD1 PHE 244 138.377 −6.058 −12.674 1.00 30.00 1804 CD2 PHE 244137.301 −6.469 −14.768 1.00 30.00 1805 CE1 PHE 244 139.498 −5.568−13.348 1.00 30.00 1806 CE2 PHE 244 138.418 −5.981 −15.452 1.00 30.001807 CZ PHE 244 139.515 −5.532 −14.742 1.00 30.00 1808 C PHE 244 133.628−7.133 −12.352 1.00 30.00 1809 O PHE 244 133.078 −6.969 −11.264 1.0030.00 1810 N MET 245 133.251 −8.070 −13.215 1.00 30.00 1811 CA MET 245132.142 −8.979 −12.928 1.00 30.00 1812 CB MET 245 130.871 −8.455 −13.5891.00 30.00 1813 CG MET 245 129.600 −8.954 −12.957 1.00 30.00 1814 SD MET245 129.286 −8.191 −11.360 1.00 30.00 1815 CE MET 245 127.683 −8.994−10.925 1.00 30.00 1816 C MET 245 132.454 −10.396 −13.438 1.00 30.001817 O MET 245 132.554 −10.618 −14.652 1.00 30.00 1818 N ASP 246 132.614−11.348 −12.518 1.00 30.00 1819 CA ASP 246 132.922 −12.731 −12.895 1.0030.00 1820 CB ASP 246 134.202 −13.206 −12.208 1.00 30.00 1821 CG ASP 246134.865 −14.347 −12.954 1.00 30.00 1822 OD2 ASP 246 134.137 −15.186−13.518 1.00 30.00 1823 OD2 ASP 246 136.111 −14.411 −12.976 1.00 30.001824 C ASP 246 131.779 −13.695 −12.554 1.00 30.00 1825 O ASP 246 131.413−13.852 −11.388 1.00 30.00 1826 N PRO 247 131.226 −14.375 −13.579 1.0030.00 1827 CD PRO 247 131.698 −14.248 −14.971 1.00 30.00 1828 CA PRO 247130.117 −15.342 −13.503 1.00 30.00 1829 CB PRO 247 129.630 −15.395−14.941 1.00 30.00 1830 CG PRO 247 130.911 −15.335 −15.688 1.00 30.001831 C PRO 247 130.472 −16.731 −12.978 1.00 30.00 1832 O PRO 247 129.604−17.595 −12.851 1.00 30.00 1833 N SER 248 131.751 −16.928 −12.672 1.0030.00 1834 CA SER 248 132.271 −18.200 −12.178 1.00 30.00 1835 CB SER 248133.805 −18.182 −12.182 1.00 30.00 1836 OG SER 248 134.336 −19.351−11.580 1.00 30.00 1837 C SER 248 131.803 −18.600 −10.794 1.00 30.001838 O SER 248 131.600 −17.762 −9.907 1.00 30.00 1839 N VAL 249 131.649−19.911 −10.638 1.00 30.00 1840 CA VAL 249 131.251 −20.535 −9.388 1.0030.00 1841 CB VAL 249 129.738 −20.802 −9.339 1.00 30.00 1842 CG1 VAL 249128.988 −19.485 −9.256 1.00 30.00 1843 CG2 VAL 249 129.306 −21.586−10.563 1.00 30.00 1844 C VAL 249 132.010 −21.856 −9.292 1.00 30.00 1845O VAL 249 131.524 −22.821 −8.714 1.00 30.00 1846 N ARG 250 133.209−21.879 −9.874 1.00 30.00 1847 CA ARG 250 134.079 −23.060 −9.861 1.0030.00 1848 CB ARG 250 135.471 −22.717 −10.436 1.00 30.00 1849 CG ARG 250136.529 −23.804 −10.197 1.00 30.00 1850 CD ARG 250 137.978 −23.325−10.392 1.00 30.00 1851 NE ARG 250 138.934 −24.197 −9.695 1.00 30.001852 CZ ARG 250 140.247 −23.978 −9.602 1.00 30.00 1853 NH1 ARG 250140.785 −22.908 −10.168 1.00 30.00 1854 NH2 ARG 250 141.021 −24.814−8.915 1.00 30.00 1855 C ARG 250 134.262 −23.628 −8.456 1.00 30.00 1856O ARG 250 134.596 −24.799 −8.296 1.00 30.00 1857 N HIS 251 134.038−22.806 −7.438 1.00 30.00 1858 CA HIS 251 134.236 −23.253 −6.066 1.0030.00 1859 CB HIS 251 135.179 −22.289 −5.358 1.00 30.00 1860 CG HIS 251136.571 −22.319 −5.906 1.00 30.00 1861 CD2 HIS 251 137.174 −21.559−6.851 1.00 30.00 1862 ND1 HIS 251 137.503 −23.257 −5.515 1.00 30.001863 CE1 HIS 251 138.622 −23.069 −6.192 1.00 30.00 1864 NE2 HIS 251138.449 −22.046 −7.010 1.00 30.00 1865 C HIS 251 132.995 −23.468 −5.2261.00 30.00 1866 O HIS 251 133.066 −23.412 −3.989 1.00 30.00 1867 N GLN252 131.865 −23.715 −5.893 1.00 30.00 1868 CA GLN 252 130.599 −23.967−5.203 1.00 30.00 1869 CB GLN 252 129.506 −24.409 −6.173 1.00 30.00 1870CG GLN 252 129.231 −23.492 −7.322 1.00 30.00 1871 CD GLN 252 127.829−23.682 −7.849 1.00 30.00 1872 OE1 GLN 252 126.858 −23.206 −7.240 1.0030.00 1873 NE2 GLN 252 127.705 −24.393 −8.971 1.00 30.00 1874 C GLN 252130.868 −25.135 −4.280 1.00 30.00 1875 O GLN 252 130.550 −25.100 −3.0901.00 30.00 1876 N ARG 253 131.456 −26.170 −4.872 1.00 30.00 1877 CA ARG253 131.801 −27.393 −4.181 1.00 30.00 1878 CB ARG 253 132.454 −28.338−5.182 1.00 30.00 1879 CG ARG 253 131.673 −28.476 −6.493 1.00 30.00 1880CD ARG 253 130.812 −29.738 −6.524 1.00 30.00 1881 NE ARG 253 131.622−30.953 −6.434 1.00 30.00 1882 CZ ARG 253 131.141 −32.190 −6.528 1.0030.00 1883 NH1 ARG 253 129.844 −32.387 −6.719 1.00 30.00 1884 NH2 ARG253 131.958 −33.230 −6.424 1.00 30.00 1885 C ARG 253 132.724 −27.178−2.969 1.00 30.00 1886 O ARG 253 132.654 −27.932 −2.002 1.00 30.00 1887N LYS 254 133.581 −26.157 −3.004 1.00 30.00 1888 CA LYS 254 134.493−25.901 −1.878 1.00 30.00 1889 CB LYS 254 135.695 −25.060 −2.336 1.0030.00 1890 CG LYS 254 136.769 −25.814 −3.130 1.00 30.00 1891 CD LYS 254136.311 −26.199 −4.539 1.00 30.00 1892 CE LYS 254 137.458 −26.821 −5.3471.00 30.00 1893 NZ LYS 254 137.063 −27.165 −6.748 1.00 30.00 1894 C LYS254 133.842 −25.211 −0.668 1.00 30.00 1895 O LYS 254 134.478 −25.0620.379 1.00 30.00 1896 N VAL 255 132.589 −24.790 −0.809 1.00 30.00 1897CA VAL 255 131.879 −24.109 0.267 1.00 30.00 1898 CB VAL 255 131.177−22.832 −0.274 1.00 30.00 1899 CG1 VAL 255 130.813 −21.894 0.877 1.0030.00 1900 CG2 VAL 255 132.085 −22.131 −1.274 1.00 30.00 1901 C VAL 255130.840 −25.069 0.867 1.00 30.00 1902 O VAL 255 129.908 −25.488 0.1861.00 30.00 1903 N PRO 256 130.982 −25.412 2.162 1.00 30.00 1904 CD PRO256 131.865 −24.738 3.134 1.00 30.00 1905 CA PRO 256 130.066 −26.3302.851 1.00 30.00 1906 CB PRO 256 130.598 −26.338 4.289 1.00 30.00 1907CG PRO 256 131.153 −24.984 4.452 1.00 30.00 1908 C PRO 256 128.601−25.938 2.742 1.00 30.00 1909 O PRO 256 128.167 −24.939 3.312 1.00 30.001910 N ASN 257 127.855 −26.755 1.997 1.00 30.00 1911 CA ASN 257 126.430−26.547 1.727 1.00 30.00 1912 CB ASN 257 125.795 −27.877 1.327 1.0030.00 1913 CG ASN 257 126.121 −28.256 −0.097 1.00 30.00 1914 OD1 ASN 257127.292 −28.301 −0.483 1.00 30.00 1915 ND2 ASN 257 125.085 −28.526−0.894 1.00 30.00 1916 C ASN 257 125.588 −25.869 2.805 1.00 30.00 1917 OASN 257 125.579 −26.278 3.970 1.00 30.00 1918 N GLY 258 124.866 −24.8332.387 1.00 30.00 1919 CA GLY 258 124.038 −24.089 3.311 1.00 30.00 1920 CGLY 258 124.627 −22.718 3.606 1.00 30.00 1921 O GLY 258 123.922 −21.8264.095 1.00 30.00 1922 N TYR 259 125.919 −22.543 3.320 1.00 30.00 1923 CATYR 259 126.580 −21.258 3.552 1.00 30.00 1924 CB TYR 259 128.100 −21.4303.538 1.00 30.00 1925 CG TYR 259 128.676 −22.010 4.821 1.00 30.00 1926CD1 TYR 259 127.899 −22.806 5.675 1.00 30.00 1927 CE1 TYR 259 128.443−23.363 6.845 1.00 30.00 1928 CD2 TYR 259 130.011 −21.785 5.170 1.0030.00 1929 CE2 TYR 259 130.564 −22.339 6.337 1.00 30.00 1930 CZ TYR 259129.773 −23.125 7.166 1.00 30.00 1931 OH TYR 259 130.320 −23.670 8.3041.00 30.00 1932 C TYR 259 126.143 −20.222 2.508 1.00 30.00 1933 O TYR259 125.874 −19.063 2.851 1.00 30.00 1934 N LEU 260 126.060 −20.6301.242 1.00 30.00 1935 CA LEU 260 125.612 −19.703 0.206 1.00 30.00 1936CB LEU 260 125.780 −20.320 −1.185 1.00 30.00 1937 CG LEU 260 125.551−19.306 −2.316 1.00 30.00 1938 CD1 LEU 260 126.690 −18.276 −2.311 1.0030.00 1939 CD2 LEU 260 125.508 −20.000 −3.644 1.00 30.00 1940 C LEU 260124.137 −19.329 0.401 1.00 30.00 1941 O LEU 260 123.282 −20.202 0.5111.00 30.00 1942 N ARG 261 123.837 −18.039 0.458 1.00 30.00 1943 CA ARG261 122.453 −17.592 0.625 1.00 30.00 1944 CB ARG 261 122.263 −16.7881.914 1.00 30.00 1945 CG ARG 261 122.729 −17.470 3.169 1.00 30.00 1946CD ARG 261 122.154 −18.850 3.277 1.00 30.00 1947 NE ARG 261 122.851−19.577 4.326 1.00 30.00 1948 CZ ARG 261 122.607 −19.432 5.620 1.0030.00 1949 NH1 ARG 261 121.673 −18.589 6.029 1.00 30.00 1950 NH2 ARG 261123.334 −20.104 6.499 1.00 30.00 1951 C ARG 261 122.114 −16.689 −0.5321.00 30.00 1952 O ARG 261 120.952 −16.549 −0.904 1.00 30.00 1953 N PHE262 123.144 −16.061 −1.085 1.00 30.00 1954 CA PHE 262 122.956 −15.153−2.201 1.00 30.00 1955 CB PHE 262 122.520 −13.777 −1.705 1.00 30.00 1956CG PHE 262 122.500 −12.741 −2.787 1.00 30.00 1957 CD1 PHE 262 121.529−12.780 −3.784 1.00 30.00 1958 CD2 PHE 262 123.485 −11.766 −2.848 1.0030.00 1959 CE1 PHE 262 121.537 −11.868 −4.831 1.00 30.00 1960 CE2 PHE262 123.504 −10.847 −3.890 1.00 30.00 1961 CZ PHE 262 122.522 −10.902−4.889 1.00 30.00 1962 C PHE 262 124.204 −14.975 −3.039 1.00 30.00 1963O PHE 262 125.292 −14.793 −2.505 1.00 30.00 1964 N HIS 263 124.041−15.018 −4.357 1.00 30.00 1965 CA HIS 263 125.169 −14.811 −5.255 1.0030.00 1966 CB HIS 263 125.890 −16.124 −5.565 1.00 30.00 1967 CG HIS 263126.766 −16.043 −6.778 1.00 30.00 1968 CD2 HIS 263 128.031 −15.581−6.936 1.00 30.00 1969 ND1 HIS 263 126.321 −16.373 −8.041 1.00 30.001970 CE1 HIS 263 127.272 −16.120 −8.924 1.00 30.00 1971 NE2 HIS 263128.320 −15.637 −8.280 1.00 30.00 1972 C HIS 263 124.764 −14.155 −6.5731.00 30.00 1973 O HIS 263 123.792 −14.554 −7.200 1.00 30.00 1974 N TYR264 125.517 −13.143 −6.984 1.00 30.00 1975 CA TYR 264 125.240 −12.476−8.248 1.00 30.00 1976 CB TYR 264 124.353 −11.244 −8.054 1.00 30.00 1977CG TYR 264 123.858 −10.680 −9.370 1.00 30.00 1978 CD1 TYR 264 123.208−11.502 −10.298 1.00 30.00 1979 CE1 TYR 264 122.759 −11.000 −11.520 1.0030.00 1980 CD2 TYR 264 124.046 −9.336 −9.698 1.00 30.00 1981 CE2 TYR 264123.599 −8.821 −10.919 1.00 30.00 1982 CZ TYR 264 122.957 −9.659 −11.8241.00 30.00 1983 OH TYR 264 122.517 −9.170 −13.038 1.00 30.00 1984 C TYR264 126.539 −12.062 −8.929 1.00 30.00 1985 O TYR 264 127.329 −11.286−8.380 1.00 30.00 1986 N GLY 265 126.756 −12.590 −10.128 1.00 30.00 1987CA GLY 265 127.957 −12.268 −10.868 1.00 30.00 1988 C GLY 265 127.758−12.388 −12.366 1.00 30.00 1989 O GLY 265 128.688 −12.746 −13.089 1.0030.00 1990 N SER 266 126.554 −12.070 −12.839 1.00 30.00 1991 CA SER 266126.245 −12.170 −14.265 1.00 30.00 1992 CB SER 266 124.791 −11.766−14.537 1.00 30.00 1993 OG SER 266 124.555 −10.416 −14.184 1.00 30.001994 C SER 266 127.172 −11.354 −15.155 1.00 30.00 1995 O SER 266 127.695−10.312 −14.759 1.00 30.00 1996 N GLU 267 127.356 −11.850 −16.371 1.0030.00 1997 CA GLU 267 128.213 −11.214 −17.359 1.00 30.00 1998 CB GLU 267128.339 −12.140 −18.579 1.00 30.00 1999 CG GLU 267 129.504 −11.844−19.507 1.00 30.00 2000 CD GLU 267 130.824 −12.342 −18.958 1.00 30.002001 OE1 GLU 267 131.209 −11.920 −17.846 1.00 30.00 2002 OE2 GLU 267131.478 −13.159 −19.642 1.00 30.00 2003 C GLU 267 127.654 −9.848 −17.7911.00 30.00 2004 O GLU 267 128.330 −8.826 −17.687 1.00 30.00 2005 N ASP268 126.408 −9.840 −18.255 1.00 30.00 2006 CA ASP 268 125.752 −8.629−18.748 1.00 30.00 2007 CB ASP 268 124.431 −9.012 −19.409 1.00 30.002008 CG ASP 268 124.585 −10.158 −20.377 1.00 30.00 2009 OD1 ASP 268125.326 −10.006 −21.372 1.00 30.00 2010 OD2 ASP 268 123.969 −11.215−20.137 1.00 30.00 2011 C ASP 268 125.496 −7.504 −17.751 1.00 30.00 2012O ASP 268 125.022 −6.433 −18.136 1.00 30.00 2013 N SER 269 125.798−7.732 −16.480 1.00 30.00 2014 CA SER 269 125.566 −6.702 −15.470 1.0030.00 2015 CB SER 269 125.150 −7.345 −14.149 1.00 30.00 2016 OG SER 269125.212 −6.400 −13.095 1.00 30.00 2017 C SER 269 126.769 −5.813 −15.2061.00 30.00 2018 O SER 269 127.906 −6.274 −15.241 1.00 30.00 2019 N LEU270 126.520 −4.533 −14.947 1.00 30.00 2020 CA LEU 270 127.618 −3.627−14.628 1.00 30.00 2021 CB LEU 270 127.188 −2.157 −14.737 1.00 30.002022 CG LEU 270 127.051 −1.524 −16.126 1.00 30.00 2023 CD1 LEU 270126.647 −0.079 −15.954 1.00 30.00 2024 CD2 LEU 270 128.363 −1.617−16.901 1.00 30.00 2025 C LEU 270 127.999 −3.948 −13.191 1.00 30.00 2026O LEU 270 127.828 −5.081 −12.729 1.00 30.00 2027 N GLY 271 128.494−2.960 −12.466 1.00 30.00 2028 CA GLY 271 128.873 −3.236 −11.096 1.0030.00 2029 C GLY 271 127.784 −3.716 −10.140 1.00 30.00 2030 O GLY 271126.767 −4.294 −10.529 1.00 30.00 2031 N GLY 272 128.047 −3.449 −8.8631.00 30.00 2032 CA GLY 272 127.168 −3.797 −7.767 1.00 30.00 2033 C GLY272 127.994 −3.615 −6.505 1.00 30.00 2034 O GLY 272 129.220 −3.694−6.556 1.00 30.00 2035 N PHE 273 127.349 −3.353 −5.375 1.00 30.00 2036CA PHE 273 128.086 −3.185 −4.119 1.00 30.00 2037 CD PHE 273 128.670−1.771 −4.031 1.00 30.00 2038 CG PHE 273 127.626 −0.701 −4.090 1.0030.00 2039 CD1 PHE 273 127.256 −0.010 −2.935 1.00 30.00 2040 CD2 PHE 273126.947 −0.436 −5.283 1.00 30.00 2041 CE1 PHE 273 126.223 0.920 −2.9641.00 30.00 2042 CE2 PHE 273 125.914 0.492 −5.318 1.00 30.00 2043 CZ PHE273 125.550 1.168 −4.159 1.00 30.00 2044 C PHE 273 127.132 −3.449 −2.9511.00 30.00 2045 O PHE 273 126.010 −3.898 −3.162 1.00 30.00 2046 N THR274 127.578 −3.172 −1.728 1.00 30.00 2047 CA THR 274 126.747 −3.400−0.544 1.00 30.00 2048 CB THR 274 127.368 −4.510 0.406 1.00 30.00 2049OG1 THR 274 128.705 −4.150 0.778 1.00 30.00 2050 CG2 THR 274 127.401−5.860 −0.276 1.00 30.00 2051 C THR 274 126.522 −2.132 0.285 1.00 30.002052 O THR 274 127.349 −1.209 0.292 1.00 30.00 2053 N TYR 275 125.374−2.076 0.955 1.00 30.00 2054 CA TYR 275 125.055 −0.957 1.837 1.00 30.002055 CB TYR 275 123.820 −0.200 1.340 1.00 30.00 2056 CG TYR 275 123.4941.048 2.139 1.00 30.00 2057 CD1 TYR 275 124.186 2.244 1.939 1.00 30.002058 CE1 TYR 275 123.905 3.386 2.711 1.00 30.00 2059 CD2 TYR 275 122.5141.017 3.123 1.00 30.00 2060 CE2 TYR 275 122.229 2.139 3.897 1.00 30.002061 CZ TYR 275 122.921 3.319 3.692 1.00 30.00 2062 OH TYR 275 122.6084.404 4.485 1.00 30.00 2063 C TYR 275 124.817 −1.618 3.201 1.00 30.002064 O TYR 275 124.151 −2.649 3.290 1.00 30.00 2065 N VAL 276 125.414−1.052 4.246 1.00 30.00 2066 CA VAL 276 125.313 −1.602 5.598 1.00 30.002067 CB VAL 276 126.714 −2.058 6.147 1.00 30.00 2068 CG1 VAL 276 126.596−2.523 7.620 1.00 30.00 2069 CG2 VAL 276 127.291 −3.176 5.266 1.00 30.002070 C VAL 276 124.766 −0.555 6.544 1.00 30.00 2071 O VAL 276 125.162−0.607 6.484 1.00 30.00 2072 N GLU 277 123.871 −0.982 7.429 1.00 30.002073 CA GLU 277 123.261 −0.081 8.393 1.00 30.00 2074 CB GLU 277 121.8840.349 7.886 1.00 30.00 2075 CG GLU 277 121.353 1.621 8.500 1.00 30.002076 CD GLU 277 119.977 1.975 7.989 1.00 30.00 2077 OE1 GLU 277 119.7561.890 6.764 1.00 30.00 2078 OE2 GLU 277 119.118 2.343 8.809 1.00 30.002079 C GLU 277 123.139 −0.810 9.731 1.00 30.00 2080 O GLU 277 122.320−1.712 9.888 1.00 30.00 2081 N ILE 278 123.967 −0.426 10.692 1.00 30.002082 CA ILE 278 123.957 −1.036 12.016 1.00 30.00 2083 CB ILE 278 125.390−1.204 12.561 1.00 30.00 2084 CG2 ILE 278 125.353 −1.878 13.934 1.0030.00 2085 CG1 ILE 278 126.237 −2.009 11.572 1.00 30.00 2086 CD1 ILE 278127.717 −1.793 11.760 1.00 30.00 2087 C ILE 278 123.194 −0.142 12.9871.00 30.00 2088 O ILE 278 123.539 1.022 13.169 1.00 30.00 2089 N GLY 279122.158 −0.696 13.607 1.00 30.00 2090 CA GLY 279 121.369 0.068 14.5521.00 30.00 2091 C GLY 279 121.449 −0.525 15.942 1.00 30.00 2092 O GLY279 122.274 −1.396 16.205 1.00 30.00 2093 N SER 280 120.583 −0.05116.832 1.00 30.00 2094 CA SER 280 120.543 −0.523 18.212 1.00 30.00 2095CB SER 280 119.455 0.236 18.982 1.00 30.00 2096 OG SER 280 119.239−0.327 20.268 1.00 30.00 2097 C SER 280 120.289 −2.026 18.331 1.00 30.002098 O SER 280 120.825 −2.685 19.224 1.00 30.00 2099 N LYS 281 119.481−2.561 17.421 1.00 30.00 2100 CA LYS 281 119.124 −3.970 17.458 1.0030.00 2101 CB LYS 281 117.613 −4.112 17.253 1.00 30.00 2102 CG LYS 281116.776 −3.451 18.343 1.00 30.00 2103 CD LYS 281 117.091 −4.039 19.7121.00 30.00 2104 CE LYS 281 116.171 −3.493 20.796 1.00 30.00 2105 NZ LYS281 116.429 −4.137 22.121 1.00 30.00 2106 C LYS 281 119.859 −4.88716.488 1.00 30.00 2107 O LYS 281 120.420 −5.907 16.900 1.00 30.00 2108 NGLU 282 119.855 −4.553 15.203 1.00 30.00 2109 CA GLU 282 120.540 −5.40214.237 1.00 30.00 2110 CB GLU 282 119.533 −6.283 13.493 1.00 30.00 2111CG GLU 282 118.810 −5.602 12.339 1.00 30.00 2112 CD GLU 282 117.700−4.680 12.798 1.00 30.00 2113 OE1 GLU 282 116.703 −5.180 13.365 1.0030.00 2114 OE2 GLU 282 117.820 −3.456 12.588 1.00 30.00 2115 C GLU 282121.397 −4.669 13.207 1.00 30.00 2116 O GLU 282 121.368 −3.440 13.0821.00 30.00 2117 N MET 283 122.169 −5.463 12.474 1.00 30.00 2118 CA MET283 123.031 −4.971 11.414 1.00 30.00 2119 CB MET 283 124.435 −5.55211.558 1.00 30.00 2120 CG MET 283 125.332 −5.228 10.386 1.00 30.00 2121SD MET 283 126.841 −6.204 10.356 1.00 30.00 2122 CE MET 283 127.318−6.048 8.590 1.00 30.00 2123 C MET 283 122.418 −5.457 10.109 1.00 30.002124 O MET 283 122.173 −6.649 9.945 1.00 30.00 2125 N SER 284 122.160−4.543 9.185 1.00 30.00 2126 CA SER 284 121.571 −4.929 7.910 1.00 30.002127 CB SER 284 120.336 −4.072 7.631 1.00 30.00 2128 OG SER 284 119.431−4.151 8.715 1.00 30.00 2129 C SER 284 122.557 −4.825 6.740 1.00 30.002130 O SER 284 123.428 −3.946 6.712 1.00 30.00 2131 N ILE 285 122.414−5.736 5.783 1.00 30.00 2132 CA ILE 285 123.275 −5.747 4.610 1.00 30.002133 CB ILE 285 124.279 −6.950 4.592 1.00 30.00 2134 CG2 ILE 285 125.247−6.785 3.415 1.00 30.00 2135 GG1 ILE 285 125.045 −7.063 5.915 1.00 30.002136 CD1 ILE 285 124.275 −7.786 6.995 1.00 30.00 2137 C ILE 285 122.429−5.876 3.351 1.00 30.00 2138 O ILE 285 122.011 −6.974 2.989 1.00 30.002139 N THR 286 122.159 −4.770 2.677 1.00 30.00 2140 CA THR 286 121.394−4.875 1.452 1.00 30.00 2141 CB THR 286 120.231 −3.824 1.415 1.00 30.002142 OG1 THR 286 120.273 −3.086 0.191 1.00 30.00 2143 CG2 THR 286120.298 −2.895 2.637 1.00 30.00 2144 C THR 286 122.383 −4.734 0.290 1.0030.00 2145 O THR 286 123.282 −3.903 0.323 1.00 30.00 2146 N TYR 287122.245 −5.607 −0.703 1.00 30.00 2147 CA TYR 287 123.121 −5.622 −1.8701.00 30.00 2148 CB TYR 287 123.404 −7.067 −2.317 1.00 30.00 2149 CG TYR287 124.246 −7.905 −1.354 1.00 30.00 2150 CD1 TYR 287 123.770 −8.253−0.089 1.00 30.00 2151 CE1 TYR 287 124.536 −9.013 0.786 1.00 30.00 2152CD2 TYR 287 125.521 −8.345 −1.718 1.00 30.00 2153 CE2 TYR 287 126.297−9.106 −0.846 1.00 30.00 2154 CZ TYR 287 125.800 −9.436 0.406 1.00 30.002155 OH TYR 287 126.573 −10.177 1.275 1.00 30.00 2156 C TYR 287 122.465−4.859 −3.004 1.00 30.00 2157 O TYR 287 121.387 −5.227 −3.476 1.00 30.002158 N VAL 288 123.135 −3.800 −3.443 1.00 30.00 2159 CA VAL 288 122.636−2.944 −4.502 1.00 30.00 2160 CB VAL 288 122.691 −1.478 −4.052 1.0030.00 2161 CG1 VAL 288 121.973 −0.582 −5.053 1.00 30.00 2162 CG2 VAL 288122.089 −1.354 −2.671 1.00 30.00 2163 C VAL 208 123.425 −3.090 −5.7991.00 30.00 2164 O VAL 288 124.644 −2.930 −5.822 1.00 30.00 2165 N GLU289 122.728 −3.393 −6.885 1.00 30.00 2166 CA GLU 289 123.381 −3.528−8.181 1.00 30.00 2167 CB GLU 289 122.439 −4.201 −9.174 1.00 30.00 2168CG GLU 289 122.987 −4.310 −10.577 1.00 30.00 2169 CD GLU 289 122.177−5.263 −11.422 1.00 30.00 2170 OE1 GLU 289 120.933 −5.234 −11.300 1.0030.00 2171 OE2 GLU 289 122.777 −6.035 −12.206 1.00 30.00 2172 C GLU 289123.719 −2.131 −8.664 1.00 30.00 2173 O GLU 289 123.151 −1.154 −8.1821.00 30.00 2174 N ALA 290 124.645 −2.027 −9.604 1.00 30.00 2175 CA ALA290 125.010 −0.721 −10.130 1.00 30.00 2176 CB ALA 290 125.952 −0.879−11.319 1.00 30.00 2177 C ALA 290 123.738 0.018 −10.553 1.00 30.00 2178O ALA 290 123.551 1.187 −10.216 1.00 30.00 2179 N SER 291 122.863 −0.688−11.268 1.00 30.00 2180 CA SER 291 121.587 −0.156 −11.771 1.00 30.002181 CD SER 291 120.751 −1.293 −12.375 1.00 30.00 2182 OG SER 291121.347 −1.801 −13.560 1.00 30.00 2183 C SER 291 120.716 0.617 −10.7751.00 30.00 2184 O SER 291 120.020 1.551 −11.159 1.00 30.00 2185 N GLY292 120.735 0.225 −9.506 1.00 30.00 2186 CA GLY 292 119.934 0.920 −8.5151.00 30.00 2187 C GLY 292 119.005 −0.015 −7.767 1.00 30.00 2188 O GLY292 118.585 0.284 −6.645 1.00 30.00 2189 N LYS 293 118.688 −1.151 −8.3921.00 30.00 2190 CA LYS 293 117.806 −2.161 −7.808 1.00 30.00 2191 CB LYS293 117.471 −3.258 −8.829 1.00 30.00 2192 CG LYS 293 116.586 −2.862−9.990 1.00 30.00 2193 CD LYS 293 116.208 −4.106 −10.789 1.00 30.00 2194CE LYS 293 115.212 −3.795 −11.896 1.00 30.00 2195 NZ LYS 293 114.723−5.037 −12.567 1.00 30.00 2196 C LYS 293 118.444 −2.859 −6.623 1.0030.00 2197 O LYS 293 119.606 −3.248 −6.690 1.00 30.00 2198 N SER 294117.691 −3.017 −5.540 1.00 30.00 2199 CA SER 294 118.201 −3.755 −4.3921.00 30.00 2200 CB SER 294 117.450 −3.376 −3.109 1.00 30.00 2201 OG SER294 117.750 −2.043 −2.715 1.00 30.00 2202 C SER 294 117.899 −5.204−4.777 1.00 30.00 2203 O SER 294 116.743 −5.552 −4.989 1.00 30.00 2204 NLEU 295 118.929 −6.040 −4.894 1.00 30.00 2205 CA LEU 295 118.703 −7.424−5.291 1.00 30.00 2206 CB LEU 295 119.598 −7.780 −6.484 1.00 30.00 2207CG LEU 295 120.988 −7.173 −6.595 1.00 30.00 2208 CD1 LEU 295 121.874−7.716 −5.496 1.00 30.00 2209 CD2 LEU 295 121.553 −7.510 −7.960 1.0030.00 2210 C LEU 295 118.804 −8.494 −4.202 1.00 30.00 2211 O LEU 295118.556 −9.676 −4.460 1.00 30.00 2212 N PHE 296 119.152 −8.075 −2.9881.00 30.00 2213 CA PHE 296 119.234 −8.987 −1.847 1.00 30.00 2214 CB PHE296 120.343 −10.021 −2.023 1.00 30.00 2215 CG PHE 296 120.420 −11.019−0.888 1.00 30.00 2216 CD1 PHE 296 119.628 −12.167 −0.893 1.00 30.002217 CD2 PHE 296 121.268 −10.803 −0.194 1.00 30.00 2218 CE1 PHE 296119.682 −13.083 −0.164 1.00 30.00 2219 CE2 PHE 296 121.326 −11.718−1.258 1.00 30.00 2220 CZ PHE 296 120.530 −12.857 1.240 1.00 30.00 2221C PHE 296 119.491 −8.260 −0.539 1.00 30.00 2222 O PHE 296 120.358 −7.392−0.450 1.00 30.00 2223 N LYS 297 118.737 −8.626 0.486 1.00 30.00 2224 CALYS 297 118.935 −8.029 1.794 1.00 30.00 2225 CB LYS 297 117.933 −6.9032.049 1.00 30.00 2226 CG LYS 297 118.033 −6.324 3.451 1.00 30.00 2227 CDLYS 297 117.144 −5.106 3.640 1.00 30.00 2228 CE LYS 297 117.398 −4.4424.990 1.00 30.00 2229 NZ LYS 297 116.591 −3.202 5.173 1.00 30.00 2230 CLYS 297 118.770 −9.093 2.857 1.00 30.00 2231 O LYS 297 118.108 −10.1062.633 1.00 30.00 2232 N THR 298 119.403 −8.858 3.999 1.00 30.00 2233 CATHR 298 119.336 −9.738 5.159 1.00 30.00 2234 CB THR 298 120.195 −11.0144.980 1.00 30.00 2235 OG1 THR 298 120.207 −11.758 6.203 1.00 30.00 2236CG2 THR 298 121.604 −10.661 4.604 1.00 30.00 2237 C THR 298 119.867−8.928 6.334 1.00 30.00 2238 O THR 298 120.516 −7.901 6.139 1.00 30.002239 N SER 299 119.573 −9.353 7.553 1.00 30.00 2240 CA SER 299 120.074−8.627 8.709 1.00 30.00 2241 CB SER 299 118.942 −7.877 9.419 1.00 30.002242 OG SER 299 118.130 −8.758 10.169 1.00 30.00 2243 C SER 299 120.734−9.612 9.663 1.00 30.00 2244 O SER 299 120.458 −10.819 9.626 1.00 30.002245 N LEU 300 121.628 −9.099 10.497 1.00 30.00 2246 CA LEU 300 122.320−9.936 11.456 1.00 30.00 2247 CB LEU 300 123.828 −9.935 11.182 1.0030.00 2248 CG LEU 300 124.269 −10.543 9.848 1.00 30.00 2249 CD1 LEU 300125.713 −10.171 9.569 1.00 30.00 2250 CD2 LEU 300 124.085 −12.056 9.8831.00 30.00 2251 C LEU 300 122.045 −9.438 12.862 1.00 30.00 2252 O LEU300 122.064 −8.237 13.130 1.00 30.00 2253 N PRO 301 121.778 −10.36513.784 1.00 30.00 2254 CD PRO 301 121.729 −11.825 13.589 1.00 30.00 2255CA PRO 301 121.498 −10.008 15.175 1.00 30.00 2256 CB PRO 301 121.090−11.345 15.792 1.00 30.00 2257 CG PRO 301 121.893 −12.338 15.000 1.0030.00 2258 C PRO 301 122.686 −9.355 15.894 1.00 30.00 2259 O PRO 301123.832 −9.452 15.453 1.00 30.00 2260 N ARG 302 122.392 −8.688 17.0051.00 30.00 2261 CA ARG 302 123.403 −8.011 17.802 1.00 30.00 2262 CB ARG302 122.704 −7.149 18.838 1.00 30.00 2263 CG ARG 302 123.605 −6.33019.726 1.00 30.00 2264 CD ARG 302 122.719 −5.473 20.600 1.00 30.00 2265NE ARG 302 123.449 −4.601 21.502 1.00 30.00 2266 CZ ARG 302 122.862−3.884 22.451 1.00 30.00 2267 NH1 ARG 302 121.547 −3.947 22.605 1.0030.00 2268 NH2 ARG 302 123.586 −3.107 23.244 1.00 30.00 2269 C ARG 302124.345 −8.992 18.497 1.00 30.00 2270 O ARG 302 125.529 −9.056 18.0971.00 30.00 2271 OXT ARG 302 123.889 −9.685 19.431 1.00 30.00 2272 FE2FER 401 141.993 −9.359 −5.779 1.00 30.00 2273 FE3 FER 401 140.139 −8.283−8.062 1.00 30.00 2274 P PO4 410 142.542 −10.658 −8.835 1.00 30.00 2275O1 PO4 410 141.472 −11.541 −8.265 1.00 30.00 2276 O2 PO4 410 143.263−9.966 −7.711 1.00 30.00 2277 O3 PO4 410 143.515 −11.497 −9.622 1.0030.00 2278 O4 PO4 410 141.918 −9.633 −9.741 1.00 30.00 2279 CA NAG 411153.692 0.595 −3.480 1.00 30.00 2280 CB NAG 411 154.437 1.922 −3.7101.00 30.00 2281 CG NAG 411 154.997 2.522 −2.418 1.00 30.00 2282 OD1 NAG411 154.719 2.024 −1.315 1.00 30.00 2283 ND2 NAG 411 155.778 3.608−2.546 1.00 30.00 2284 C1 NAG 411 156.642 4.226 −1.276 1.00 30.00 2285C2 NAG 411 157.916 4.702 −2.090 1.00 30.00 2286 N2 NAG 411 158.724 3.468−2.158 1.00 30.00 2287 C7 NAG 411 159.035 2.767 −3.246 1.00 30.00 2288O7 NAG 411 158.697 3.082 −4.393 1.00 30.00 2289 C8 NAG 411 159.866 1.565−2.833 1.00 30.00 2290 C3 NAG 411 158.760 5.825 −1.380 1.00 30.00 2291O3 NAG 411 159.415 6.562 −2.377 1.00 30.00 2292 C4 NAG 411 157.957 6.889−0.596 1.00 30.00 2293 O4 NAG 411 158.813 7.383 −0.465 1.00 30.00 2294C5 NAG 411 156.488 6.285 −0.011 1.00 30.00 2295 O5 NAG 411 155.813 5.361−0.926 1.00 30.00 2296 C6 NAG 411 155.414 7.426 −0.254 1.00 30.00 2297O6 NAG 411 155.083 8.095 −1.001 1.00 30.00

[0051] References

[0052] 1. Griffith, J. P et al. Cell 82, 507-522 (1995).

[0053] 2. Kissinger, C. R et al. Nature 378, 641-644 (1995).

[0054] 3. Goldberg, J et al. Nature 376, 745-753 (1995).

[0055] 4. Egloff, M. P et al. J. Mol. Biol. 254, 942-959 (1995).

[0056] 5. Ek-Rylander, B et al. J. Biol. Chem. 266, 24684-24689, (1991).

[0057] 6. Hayman, A. R et al. J. Biol. Chem. 269, 1294-1300 (1994).

[0058] 7. Cassady, A. I., et al. Gene 56, 109-116 (1993).

[0059] 8. Koonin, E. V. Protein Sci. 3, 356-358 (1994).

[0060] 9. Vincent, J. B. et al. FEBS Lett. 263, 265-268 (1990).

[0061] 10. Lohse, D. L, et al. Structure 3, 987-990 (1995).

[0062] 11. Rusnak, F., et al. J. Bioinorg. Chem. 1, 388-396 (1996).

[0063] 12. Mertz, P., et al. J. Biol. Chem. 272, 21296-21302 (1997).

[0064] 13. Huang, H-B et al. Proc. Natl. Acad. Sci. USA 94, 3530-3535(1997).

[0065] 14. Zhang, J., et al. Biochemistry 35, 6276-6282 (1996).

[0066] 15. Andersson, K. K. et al. Adv. Inorg. Chem. 43, 359-408 (1995).

[0067] 16. Ek-Rylander, et al. Biochem. J. 321, 305-311 (1997).

[0068] 17. Strater, N., et al. Science 268, 1489-1492 (1995).

[0069] 18. Schlosnagle, D. C., et al. J. Biol. Chem. 249, 7574-7579(1974).

[0070] 19. Antanaitis, B. C. & Aisen, P. Adv. Inorg. Biochem. 5, 111-136(1983).

[0071] 20. Averill, B. A.,et al. J. Am. Chem. Soc. 109, 3760-3767(1987).

[0072] 21. Doi, K et al. Struct. Bonding 70, 1-26 (1988).

[0073] 22. Dietrich, M et al. Eur. J. Biochem. 199, 105-113 (1991).

[0074] 23. Vincent, J. B. et al. FASEB. J. 4, 3009-3014 (1990).

[0075] 24. Andersson, G., et al. pp 55-80. (1992) CRC Press, Boca Raton.

[0076] 25. Beck, J. L., et al. J. Am. Chem. Soc. 110, 3317-3318 (1988).

[0077] 26. Vincent, J. B. et al. Biochemistry 30, 3025-3034 (1991).

[0078] 27. Wang, Z., et al. Biochemistry 31, 5263-5268 (1992).

[0079] 28. Beck, J. L. et al. Biochim. Biophys. Acta 791, 357-363(1984).

[0080] 29. Wang, X., et al. Biochemistry 35, 13946-13954 (1996).

[0081] 30. Battistuzzi, G., et al. Biochem. J. 323, 593-596 (1997).

[0082] 31. Klabunde,T., et al. J. Mol. Biol. 259, 737-748 (1996).

[0083] 32. Klabunde, T et al. FEBS Letters 367, 56-60 (1995).

[0084] 33. Otwinowski, Z et al. Methods Enzymol., 276, 307-326 (1996).

[0085] 34. Otwinowski, Z. Proceedings of the CCP4 study weekend.Daresbury Laboratory, Warrington, UK, 80-86 (1991).

[0086] 35. Zhang, K. Y. J. et al. Acta Cryst., A46, 377-381 (1990).

[0087] 36. La Fortelle, E. de et al. Methods Enzymol., 276, 472-494(1997).

[0088] 37. Abrahams J. P. et al. Acta Cryst. D52, 30-42 (1996).

[0089] 38. Jones, T. A., et al. Acta Cryst., A47, 110-119 (1991).

[0090] 39. Brünger, A. T., et al. Acta Cryst D54, 905-921 (1998).

[0091] 40. Morris, A. L., et al. Struct. Funct. and Genet., 12, 345-364(1992).

[0092] 41. Ljusberg, J., Ek-Rylander, B., & Andersson, G.Tartrate-resistant purple acid phosphatase is synthesized as a latentproenzyme and activated by cysteine proteinases. Submitted

1 1 1 306 PRT rat 1 Thr Ala Pro Ala Ser Thr Leu Arg Phe Val Ala Val GlyAsp Trp Gly 1 5 10 15 Gly Val Pro Asn Ala Pro Phe His Thr Ala Arg GluMet Ala Asn Ala 20 25 30 Lys Glu Ile Ala Arg Thr Val Gln Ile Met Gly AlaAsp Phe Ile Met 35 40 45 Ser Leu Gly Asp Asn Phe Tyr Phe Thr Gly Val HisAsp Ala Asn Asp 50 55 60 Lys Arg Phe Gln Glu Thr Phe Glu Asp Val Phe SerAsp Arg Ala Leu 65 70 75 80 Arg Asn Ile Pro Trp Tyr Val Leu Ala Gly AsnHis Asp His Leu Gly 85 90 95 Asn Val Ser Ala Gln Ile Ala Tyr Ser Lys IleSer Lys Arg Trp Asn 100 105 110 Phe Pro Ser Pro Tyr Tyr Arg Leu Arg PheLys Val Pro Arg Ser Asn 115 120 125 Ile Thr Val Ala Ile Phe Met Leu AspThr Val Met Leu Cys Gly Asn 130 135 140 Ser Asp Asp Phe Val Ser Gln GlnPro Glu Met Pro Arg Asp Leu Gly 145 150 155 160 Val Ala Arg Thr Gln LeuSer Trp Leu Lys Lys Gln Leu Ala Ala Ala 165 170 175 Lys Glu Asp Tyr ValLeu Val Ala Gly His Tyr Pro Ile Trp Ser Ile 180 185 190 Ala Glu His GlyPro Thr Arg Cys Leu Val Lys Asn Leu Arg Pro Leu 195 200 205 Leu Ala AlaTyr Gly Val Thr Ala Tyr Leu Cys Gly His Asp His Asn 210 215 220 Leu GlnTyr Leu Gln Asp Glu Asn Gly Val Gly Tyr Val Leu Ser Gly 225 230 235 240Ala Gly Asn Phe Met Asp Pro Ser Val Arg His Gln Arg Lys Val Pro 245 250255 Asn Gly Tyr Leu Arg Phe His Tyr Gly Ser Glu Asp Ser Leu Gly Gly 260265 270 Phe Thr Tyr Val Glu Ile Gly Ser Lys Glu Met Ser Ile Thr Tyr Val275 280 285 Glu Ala Ser Gly Lys Ser Leu Phe Lys Thr Ser Leu Pro Arg ArgPro 290 295 300 Arg Pro 305

1. A crystalline form of TRAP (tartrate-resistant and purple acid phosphatases), activated by cleavage.
 2. A crystalline form of activated TRAP according to claim 1, which is human or rat TRAP.
 3. A crystalline form of activated TRAP according to any of claims 1 and 2 comprising heavy metals, particularly Fe.
 4. A crystalline form of activated TRAP according to any of claims 1 to 3, having the crystal structure with the atomic structural coordinates as given in Table 2, or by coordinates having a root mean square deviation therefrom, with respect to conserved backbone atoms of the listed amino acid sequence of not more than 1.5 Å.
 5. A crystalline form of activated TRAP according to any of claims 1 to 4, having a conserved surface with a crystal structure which is created by atoms from the two metal ions and from the following amino acid residues: Aspl4, Asp52, Tyr55, Phe56, Asn91, His92, Hisl86, Tyr187, Glu194, His195, His221, His223, Phe244, Asp246.
 6. A crystalline form of activated TRAP according to any of claims 1 to 5, which is a rotation or translation thereof.
 7. Method for the preparation of crystalline form of activated TRAP according to any of claims 1-6 which comprises cleaving TRAP with a protease, papain-like protease and thereafter crystallisation according to known methods.
 8. Method according to claim 8 in which the crystallisation is performed in the presence of inorganic phosphate.
 9. Use of a crystalline form of activated TRAP with a crystal structure according to any of claims 1 to 6 for structure-based drug design for specific modulator, activator or inhibitor of TRAP activity, useful in the treatment of diseases or degenerative conditions resulting in increased bone resorption, such as tissue damages, bone metabolic disorders, osteoporosis.
 10. Use according to claim 10 in which the conserved surface according to claim 5 is used.
 11. Method of identifying a specific modulator, activator or inhibitor of TRAP activity by a) generating the conserved surface according to claim 5 on a computer screen b) generating compounds with their spatial structure; and c) testing to see whether the compounds fit to the surface. 